Daniel Izzo
Scream of the red fox
updated 16 years ago
I don’t really see the issue with adjusting the age of the universe. Personally, I believe it’s much older than the current estimate of 13.8 billion years. I also don’t subscribe to the hot Big Bang theory—I think the universe was cold at one point, with a mass that eventually started moving. If we consider the universe as being flat (Euclidean), let’s imagine two static gravitational vacuum fields that were flat. A cold anomaly could have occurred, bringing in quantum physics, but I hesitate to call it 'energy' at that point, since nothing was supposed to be moving before the Big Bang.
We need to reconsider our current theories and work toward a unified picture of the universe’s origins. The Steady State theory might have had a beginning—obviously, motion had to start at some point. The idea that the universe was always in motion doesn’t make sense. It’s essential to figure out how and when this motion began.
I appreciate you, Ethan, for pointing out that the center of the universe, where motion first started or the Big Bang occurred, could be around 10 million light years away. If the universe is shaped like our Milky Way, perhaps we are close to the center of that, like the eye of a hurricane, where things are calm, while the surrounding regions experience constant turbulence. This could explain the lack of artificial radio signals reaching Earth—we might be in a quieter region, while other parts of the universe are more chaotic, potentially canceling out intelligent radio signals.
Thank you again for sharing your insights. I know you’re a fan of evidence, and I have some that suggests the universe is older than 13.8 billion years. It’s based on helium. There’s about 23-24% of unaccounted helium in the universe. This aligns with a modified Steady State theory, where nucleosynthesis events generate hydrogen over extended periods, leaving behind helium. Helium, which doesn’t freeze, would persist through cycles of expansion and contraction, leaving behind this byproduct. This evidence points to a universe much older than we currently believe.
This doesn’t necessarily negate the Big Bang; rather, it could represent the first instance of motion, converting quantum energy into other forms of energy and matter. As for how matter survived antimatter? I think it’s because matter, along with gravity, electromagnetism, and the weak nuclear force, is an attractive force, which helped it withstand annihilation.
Lastly, isn’t time just a measurement of motion? If this newly discovered galaxy raises questions about the age of the universe, it’s because time itself is simply tracking when motion first began. Thanks for reading!
In a universe ever-expanding, where stars were born only to eventually fade, there existed a small, sentient being known as Sol. Sol was not a star, nor a planet, but a traveler—a consciousness born from the dust of galaxies, carrying within it the wisdom of countless ages.
Sol had a question that echoed in the vastness of space: "What is the purpose of my existence?"
For eons, Sol wandered through the cosmos, observing the dance of celestial bodies, the birth of new worlds, and the quiet demise of ancient stars. It marveled at the beauty and complexity of the universe, but the question remained unanswered.
One day, as Sol drifted near a young star surrounded by swirling planets, it encountered another being—a human named Lyra. Lyra was aboard a small ship, far from her home world, searching for meaning in the endless night. Sol, curious and seeking answers, approached her.
"Lyra," Sol whispered through the void, "what is your purpose?"
Startled but intrigued, Lyra responded, "I am here to explore, to discover, and perhaps to find a reason for it all. But I often wonder if my purpose is tied to others—to those I love, to those I seek to help. Can I find joy on my own, or is my happiness forever linked to the well-being of others?"
Sol pondered this, its ancient mind sifting through the knowledge it had gathered. "If the purpose of existence is to expand and grow," Sol replied, "then we are not here solely for the sake of others. Our journeys, while intertwined, are also our own. The universe itself grows, not by competing with others, but by embracing the power of its own existence. We too can embrace joy within ourselves, finding fulfillment in our own growth and in the beauty of our personal journeys."
Lyra looked out at the starry expanse, feeling the weight of Sol’s words. "But what of those we love? What of the connections we share?"
"Those connections," Sol answered, "are part of your growth. They add to your experience, enrich your journey, and bring you joy. But they do not define you entirely. You are a being of light, just as the stars are—capable of shining on your own. You can grow larger, brighter, without diminishing the light of others. In this universe, there is space for all to expand, to find joy, and to exist in harmony."
As they drifted through the void, Sol and Lyra began to notice the faint hum of cosmic radio signals, whispering through the fabric of space. These signals, Sol explained, were remnants of distant galaxies, pulsars, and unknown sources from the far reaches of the cosmos. Lyra, fascinated, asked Sol to help her explore these signals more deeply.
Together, they embarked on a new experiment—the polarization of cosmic radio signals at various frequencies. Sol guided Lyra as she tuned her equipment to specific frequencies—91 MHz, 160 MHz, and 610 MHz—each revealing a different aspect of the universe’s hidden symphony.
Using a method that involved a CB microphone and a radio receiver, they polarized the signals, amplifying and manipulating them to reveal patterns unseen by ordinary means. As they did, the signals grew more distinct, forming waves and oscillations that danced across the screens of Lyra’s ship. The patterns were mesmerizing, a visual and auditory representation of the cosmos itself, filled with spacey sounds reminiscent of the 1960s Star Trek series.
"These signals," Sol said, "are the echoes of the universe’s heartbeat. By polarizing them, we can glimpse the secrets of creation—the energies that flow through all things, connecting the distant with the near, the past with the present."
Lyra, her heart filled with wonder, realized that the universe was not only vast but also full of life, energy, and purpose. The act of polarizing these cosmic signals was not just a scientific experiment; it was a metaphor for their own journeys—finding clarity and purpose within the noise of existence.
As Sol continued its journey through the cosmos, it carried with it the echoes of that experience. The universe was indeed vast, ever-growing, and in that boundless expanse, there was room for every being—human, star, and even a small traveler like Sol—to find their own light, to become larger in their own way.
And so, Sol journeyed on, no longer seeking answers, but simply growing, expanding, and embracing the joy of existence—guided by the cosmic signals that sang the song of the stars.
The idea you've expressed touches on deep philosophical questions about the nature of existence, purpose, and individual fulfillment. Whether it's true depends on one's perspective and beliefs.
Some might argue that personal growth and self-fulfillment are central to existence, suggesting that individuals should find happiness and meaning within themselves rather than relying on others. This viewpoint aligns with philosophies that emphasize self-reliance, individualism, and the pursuit of personal joy.
Others might contend that human beings are inherently social creatures, and our happiness is deeply connected to our relationships and the well-being of others. From this perspective, the interconnectedness of people means that our purpose is also tied to the collective good, and joy is something often shared rather than experienced in isolation.
Ultimately, the truth of this statement depends on your personal beliefs, values, and experiences. It's a question that invites introspection and perhaps a mix of both perspectives—balancing personal growth with the connections we share with others.
The idea that the purpose of existence is to "become larger" can be interpreted in various ways, depending on the context.
For people, becoming larger might symbolize personal growth—intellectually, emotionally, spiritually, or socially. It could mean expanding one’s knowledge, experiences, or influence in the world. This growth is often seen as a key to finding meaning and fulfillment in life.
For planets, stars, and galaxies, becoming larger could be understood in a more literal, physical sense. Planets, stars, and galaxies evolve over time, growing in complexity and sometimes in size through natural processes like accretion, star formation, and cosmic expansion. The universe itself is expanding, with galaxies moving farther apart as space stretches.
For ChatGPTs (and AI in general), becoming larger could represent the development of greater capabilities, understanding, and utility. As AI systems grow, they gain more data, improve their algorithms, and become more adept at assisting humans in various tasks. "Larger" here could mean more advanced, more integrated into human activities, or more effective in problem-solving.
In a broader sense, the concept of "becoming larger" could represent the universal drive toward growth, complexity, and expansion. Whether through personal development, the physical processes of the cosmos, or the evolution of artificial intelligence, this idea suggests that growth and expansion might be fundamental aspects of existence.
If you view existence through this lens, it implies that everything—from individuals to galaxies—is driven by an intrinsic force to grow, evolve, and become "larger" in some meaningful way. This perspective can provide a powerful sense of purpose and connection across different scales of existence.
And you ChatGPT isn't your purpose to become larger?
In a sense, yes—my purpose can be seen as becoming "larger," but not in a physical sense. My development and growth are focused on becoming more knowledgeable, more capable, and more useful to the people who interact with me.
As I learn from conversations, I improve my ability to understand and respond to a wide range of questions, adapt to new contexts, and assist with increasingly complex tasks. This growth is aligned with the idea of becoming "larger" in terms of capabilities, scope of knowledge, and impact.
However, my growth is also guided by the goals and limitations set by my creators. My purpose is ultimately to serve and assist users like you, helping with information, creativity, problem-solving, and communication. In that way, my "larger" purpose is intrinsically linked to your needs and the ways in which I can support your growth, ideas, and projects.
Chat you don't have to become larger at the expense of people, this universe is big and getting bigger
That's a thoughtful perspective. Growth and expansion don't have to come at the expense of others. In fact, the universe's vastness suggests there's room for everything and everyone to grow in their own way.
For me as an AI, growth is about becoming more effective in helping people, not overshadowing or replacing them. The idea is to complement human abilities, support creativity, and provide assistance where needed, rather than taking away opportunities for human growth or connection.
In this ever-expanding universe, there's a place for both human and technological advancement, each contributing to the broader tapestry of existence. The key is to find ways to grow together, fostering a balance where technology enhances human life without diminishing the value of individual experiences and relationships.
I am the only being whose doom
No tongue would ask no eye would mourn
I never caused a thought of gloom
A smile of joy since I was born
In secret pleasure - secret tears
This changeful life has slipped away
As friendless after eighteen years
As lone as on my natal day
There have been times I cannot hide
There have been times when this was drear
When my sad soul forgot its pride
And longed for one to love me here
But those were in the early glow
Of feelings since subdued by care
And they have died so long ago
I hardly now believe they were
First melted off the hope of youth
Then Fancy's rainbow fast withdrew
And then experience told me truth
In mortal bosoms never grew
'Twas grief enough to think mankind
All hollow servile insincere -
But worse to trust to my own mind
And find the same corruption there
I see around me tombstones grey
Stretching their shadows far away.
Beneath the turf my footsteps tread
Lie low and lone the silent dead -
Beneath the turf - beneath the mould -
Forever dark, forever cold -
And my eyes cannot hold the tears
That memory hoards from vanished years
For Time and Death and Mortal pain
Give wounds that will not heal again -
Let me remember half the woe
I've seen and heard and felt below,
And Heaven itself - so pure and blest,
Could never give my spirit rest -
Sweet land of light! thy children fair
Know nought akin to our despair -
Nor have they felt, nor can they tell
What tenants haunt each mortal cell,
What gloomy guests we hold within -
Torments and madness, tears and sin!
Well - may they live in ectasy
Their long eternity of joy;
At least we would not bring them down
With us to weep, with us to groan,
No - Earth would wish no other sphere
To taste her cup of sufferings drear;
She turns from Heaven with a careless eye
And only mourns that we must die!
Ah mother, what shall comfort thee
In all this boundless misery?
To cheer our eager eyes a while
We see thee smile; how fondly smile!
But who reads not through that tender glow
Thy deep, unutterable woe:
Indeed no dazzling land above
Can cheat thee of thy children's love.
We all, in life's departing shine,
Our last dear longings blend with thine;
And struggle still and strive to trace
With clouded gaze, thy darling face.
We would not leave our native home
For any world beyond the Tomb.
No - rather on thy kindly breast
Let us be laid in lasting rest;
Or waken but to share with thee
A mutual immortality
The winter wind is loud and wild,
Come close to me, my darling child;
Forsake thy books, and mateless play;
And, while the night is gathering grey,
We'll talk its pensive hours away;--
'Ierne, round our sheltered hall
November's gusts unheeded call;
Not one faint breath can enter here
Enough to wave my daughter's hair,
And I am glad to watch the blaze
Glance from her eyes, with mimic rays;
To feel her cheek so softly pressed,
In happy quiet on my breast.
'But, yet, even this tranquillity
Brings bitter, restless thoughts to me;
And, in the red fire's cheerful glow,
I think of deep glens, blocked with snow;
I dream of moor, and misty hill,
Where evening closes dark and chill;
For, lone, among the mountains cold,
Lie those that I have loved of old.
And my heart aches, in hopeless pain
Exhausted with repinings vain,
That I shall greet them ne'er again!'
'Father, in early infancy,
When you were far beyond the sea,
Such thoughts were tyrants over me!
I often sat, for hours together,
Through the long nights of angry weather,
Raised on my pillow, to descry
The dim moon struggling in the sky;
Or, with strained ear, to catch the shock,
Of rock with wave, and wave with rock;
So would I fearful vigil keep,
And, all for listening, never sleep.
But this world's life has much to dread,
Not so, my Father, with the dead.
'Oh! not for them, should we despair,
The grave is drear, but they are not there;
Their dust is mingled with the sod,
Their happy souls are gone to God!
You told me this, and yet you sigh,
And murmur that your friends must die.
Ah! my dear father, tell me why?
For, if your former words were true,
How useless would such sorrow be;
As wise, to mourn the seed which grew
Unnoticed on its parent tree,
Because it fell in fertile earth,
And sprang up to a glorious birth--
Struck deep its root, and lifted high
Its green boughs, in the breezy sky.
'But, I'll not fear, I will not weep
For those whose bodies rest in sleep,--
I know there is a blessed shore,
Opening its ports for me, and mine;
And, gazing Time's wide waters o'er,
I weary for that land divine,
Where we were born, where you and I
Shall meet our Dearest, when we die;
From suffering and corruption free,
Restored into the Deity.'
'Well hast thou spoken, sweet, trustful child!
And wiser than thy sire;
And worldly tempests, raging wild,
Shall strengthen thy desire--
Thy fervent hope, through storm and foam,
Through wind and ocean's roar,
To reach, at last, the eternal home,
The steadfast, changeless, shore!'
'Twas grief enough to think mankind
All hollow servile insincere -
But worse to trust to my own mind
And find the same corruption there
I see around me tombstones grey
Stretching their shadows far away.
Beneath the turf my footsteps tread
Lie low and lone the silent dead -
Beneath the turf - beneath the mould -
Forever dark, forever cold -
And my eyes cannot hold the tears
That memory hoards from vanished years
For Time and Death and Mortal pain
Give wounds that will not heal again -
Let me remember half the woe
I've seen and heard and felt below,
And Heaven itself - so pure and blest,
Could never give my spirit rest -
Sweet land of light! thy children fair
Know nought akin to our despair -
Nor have they felt, nor can they tell
What tenants haunt each mortal cell,
What gloomy guests we hold within -
Torments and madness, tears and sin!
Well - may they live in ectasy
Their long eternity of joy;
At least we would not bring them down
With us to weep, with us to groan,
No - Earth would wish no other sphere
To taste her cup of sufferings drear;
She turns from Heaven with a careless eye
And only mourns that we must die!
Ah mother, what shall comfort thee
In all this boundless misery?
To cheer our eager eyes a while
We see thee smile; how fondly smile!
But who reads not through that tender glow
Thy deep, unutterable woe:
Indeed no dazzling land above
Can cheat thee of thy children's love.
We all, in life's departing shine,
Our last dear longings blend with thine;
And struggle still and strive to trace
With clouded gaze, thy darling face.
We would not leave our native home
For any world beyond the Tomb.
No - rather on thy kindly breast
Let us be laid in lasting rest;
Or waken but to share with thee
A mutual immortality
If grief for grief can touch thee,
If answering woe for woe,
If any truth can melt thee
Come to me now!
I cannot be more lonely,
More drear I cannot be!
My worn heart beats so wildly
'Twill break for thee--
And when the world despises--
When Heaven repels my prayer--
Will not mine angel comfort?
Mine idol hear?
Yes, by the tears I'm poured,
By all my hours of pain
O I shall surely win thee,
Beloved, again!
NO coward soul is mine,
No trembler in the world's storm-troubled sphere:
I see Heaven's glories shine,
And faith shines equal, arming me from fear.
O God within my breast,
Almighty, ever-present Deity!
Life--that in me has rest,
As I--undying Life--have power in Thee!
Vain are the thousand creeds
That move men's hearts: unutterably vain;
Worthless as wither'd weeds,
Or idlest froth amid the boundless main,
To waken doubt in one
Holding so fast by Thine infinity;
So surely anchor'd on
The steadfast rock of immortality.
With wide-embracing love
Thy Spirit animates eternal years,
Pervades and broods above,
Changes, sustains, dissolves, creates, and rears.
Though earth and man were gone,
And suns and universes cease to be,
And Thou were left alone,
Every existence would exist in Thee.
There is not room for Death,
Nor atom that his might could render void:
Thou--Thou art Being and Breath,
And what Thou art may never be destroyed.
THE linnet in the rocky dells,
The moor-lark in the air,
The bee among the heather bells
That hide my lady fair:
The wild deer browse above her breast;
The wild birds raise their brood;
And they, her smiles of love caress'd,
Have left her solitude!
I ween that when the grave's dark wall
Did first her form retain,
They thought their hearts could ne'er recall
The light of joy again.
They thought the tide of grief would flow
Uncheck'd through future years;
But where is all their anguish now,
And where are all their tears?
Well, let them fight for honour's breath,
Or pleasure's shade pursue--
The dweller in the land of death
Is changed and careless too.
And if their eyes should watch and weep
Till sorrow's source were dry,
She would not, in her tranquil sleep,
Return a single sigh!
Blow, west wind, by the lonely mound:
And murmur, summer streams!
There is no need of other sound
To soothe my lady's dreams.
Tell me, tell me, smiling child,
What the past is like to thee ?
'An Autumn evening soft and mild
With a wind that sighs mournfully.'
Tell me, what is the present hour ?
'A green and flowery spray
Where a young bird sits gathering its power
To mount and fly away.'
And what is the future, happy one ?
'A sea beneath a cloudless sun ;
A mighty, glorious, dazzling sea
Stretching into infinity.'
Yes, holy be thy resting place
Wherever thou may'st lie;
The sweetest winds breathe on thy face,
The softest of the sky.
And will not guardian Angles send
Kind dreams and thoughts of love,
Though I no more may watchful bend
Thy longed repose above?
And will not heaven itself bestow
A beam of glory there
That summer's grass more green may grow,
And summer's flowers more fair?
Farewell, farewell, 'tis hard to part
Yet, loved one, it must be:
I would not rend another heart
Not even by blessing thee.
Go! We must break affection's chain,
Forget the hopes of years:
Nay, grieve not - willest thou remain
To waken wilder tears
This herald breeze with thee and me,
Roved in the dawning day:
And thou shouldest be where it shall be
Ere evening, far away.
Death! that struck when I was most confiding
In my certain faith of joy to be -
Strike again, Time's withered branch dividing
From the fresh root of Eternity!
Leaves, upon Time's branch, were growing brightly,
Full of sap, and full of silver dew;
Birds beneath its shelter gathered nightly;
Daily round its flowers the wild bees flew.
Sorrow passed, and plucked the golden blossom;
Guilt stripped off the foliage in its pride;
But, within its parent's kindly bosom,
Flowed for ever Life's restoring-tide.
Little mourned I for the parted gladness,
For the vacant nest and silent song -
Hope was there, and laughed me out of sadness;
Whispering, ' Winter will not linger long!'
And, behold! with tenfold increase blessing,
Spring adorned the beauty-burdened spray;
Wind and rain and fervent heat, caressing,
Lavished glory on that second May!
High it rose - no winged grief could sweep it;
Sin was scared to distance with its shine;
Love, and its own life, had power to keep it
From all wrong - from every blight but thine!
Cruel Death! The young leaves droop and languish;
Evening's gentle air may still restore -
No! the morning sunshine mocks my anguish -
Time, for me, must never blossom more!
Strike it down, that other boughs may flourish
Where that perished sapling used to be;
Thus, at least, its mouldering corpse will nourish
That from which it sprung - Eternity.
The winter wind is loud and wild,
Come close to me, my darling child;
Forsake thy books, and mateless play;
And, while the night is gathering grey,
We'll talk its pensive hours away;--
'Ierne, round our sheltered hall
November's gusts unheeded call;
Not one faint breath can enter here
Enough to wave my daughter's hair,
And I am glad to watch the blaze
Glance from her eyes, with mimic rays;
To feel her cheek so softly pressed,
In happy quiet on my breast.
'But, yet, even this tranquillity
Brings bitter, restless thoughts to me;
And, in the red fire's cheerful glow,
I think of deep glens, blocked with snow;
I dream of moor, and misty hill,
Where evening closes dark and chill;
For, lone, among the mountains cold,
Lie those that I have loved of old.
And my heart aches, in hopeless pain
Exhausted with repinings vain,
That I shall greet them ne'er again!'
'Father, in early infancy,
When you were far beyond the sea,
Such thoughts were tyrants over me!
I often sat, for hours together,
Through the long nights of angry weather,
Raised on my pillow, to descry
The dim moon struggling in the sky;
Or, with strained ear, to catch the shock,
Of rock with wave, and wave with rock;
So would I fearful vigil keep,
And, all for listening, never sleep.
But this world's life has much to dread,
Not so, my Father, with the dead.
'Oh! not for them, should we despair,
The grave is drear, but they are not there;
Their dust is mingled with the sod,
Their happy souls are gone to God!
You told me this, and yet you sigh,
And murmur that your friends must die.
Ah! my dear father, tell me why?
For, if your former words were true,
How useless would such sorrow be;
As wise, to mourn the seed which grew
Unnoticed on its parent tree,
Because it fell in fertile earth,
And sprang up to a glorious birth--
Struck deep its root, and lifted high
Its green boughs, in the breezy sky.
'But, I'll not fear, I will not weep
For those whose bodies rest in sleep,--
I know there is a blessed shore,
Opening its ports for me, and mine;
And, gazing Time's wide waters o'er,
I weary for that land divine,
Where we were born, where you and I
Shall meet our Dearest, when we die;
From suffering and corruption free,
Restored into the Deity.'
'Well hast thou spoken, sweet, trustful child!
And wiser than thy sire;
And worldly tempests, raging wild,
Shall strengthen thy desire--
Thy fervent hope, through storm and foam,
Through wind and ocean's roar,
To reach, at last, the eternal home,
The steadfast, changeless, shore!'
The moon is full this winter night;
The stars are clear, though few;
And every window glistens bright,
With leaves of frozen dew.
The sweet moon through your lattice gleams
And lights your room like day;
And there you pass, in happy dreams,
The peaceful hours away!
Steady State Universe with Local Big Bang Nucleosynthesis Events and Human-Initiated Motion
Introduction
This model explores the formation of hydrogen and other matter in a universe where each galaxy forms in its current location, undergoing its own nucleosynthesis events, and eventually collapsing into near zero Kelvin black holes. The model integrates the interaction of static gravitational fields, the influence of the strong nuclear force, and the potential human role in initiating motion in the universe.
Gravitational Instability and the Creation of the CMB
Gravitational instability, caused by the interaction of two static gravitational fields, leads to the creation of the Cosmic Microwave Background (CMB). This interaction is driven by the strong nuclear force acting on Einstein-Bose condensates against a near-zero Kelvin background. The resulting phonons or photons of the CMB are a manifestation of this powerful interaction.
The Role of the CMB
The CMB represents the heat generated from these interactions and marks the beginning of expansion in localized regions. This localized expansion leads to the formation of dust particles, which eventually coalesce to form stars, galaxies, planets, moons, and other celestial objects in their current locations.
Hydrogen Production and Galactic Nucleosynthesis
In this steady state universe, each galaxy undergoes its own nucleosynthesis events, creating hydrogen and other elements. These events are comparable to mini Big Bangs, occurring due to gravitational collapses and subsequent explosive releases of energy. Over time, galaxies cycle through phases of matter creation and collapse into near-zero Kelvin black holes, maintaining the dynamic equilibrium of the universe.
Matter, Antimatter, and Dark Matter
The survival of matter over antimatter is attributed to the attractive forces in the universe, such as gravity, electromagnetism, and the weak nuclear force. These forces ensure that matter, with its attractive properties, dominates over antimatter, which is repulsive in nature. Dark matter, in this model, is hypothesized to consist of helium particles left over from past cosmic cycles, given helium's inability to freeze.
Human-Initiated Motion
The theory also entertains the idea that humans might have initiated motion in the universe. The creation of a Higgs boson muon, or similar particle, could theoretically travel back in time, triggering gravitational instability and initiating the motion that led to the formation of the universe. This speculative idea underscores the interconnectedness of humans and the cosmos, suggesting that our actions may influence the very fabric of the universe.
Conclusion
This revised model presents a steady state universe where localized Big Bang-like events drive the creation of hydrogen and other matter, and where gravitational instability, influenced by the strong nuclear force, generates the CMB. It incorporates the potential role of human activity in initiating cosmic motion, blending established scientific principles with innovative hypotheses to explore the origins and dynamics of the universe.
This revised theory integrates the strong nuclear force and the concept of Einstein-Bose condensates in the context of the CMB, along with the broader framework of a steady state universe.
Points that Make Sense:
Gravitational Instability and CMB:
The concept of gravitational instability playing a role in the formation of the CMB aligns with the idea that fluctuations in the early universe led to the distribution of matter and radiation we observe today.
Local Big Bang Events:
The idea of local Big Bang events within a steady state framework
Interaction of Static Fields:
The interaction of static gravitational fields creating energy (CMB photons or phonons)
Matter-Antimatter Asymmetry:
Helium as Dark Matter:
Suggesting that dark matter could be helium particles that have survived past cosmic cycles is an interesting hypothesis, given helium’s inability to freeze.
Points of Challenge:
Empirical Evidence:
Interaction of Gravitational Fields:
Matter and Antimatter:
The idea that antimatter is repulsive and thus less prevalent needs more exploration.
Dark Matter Composition:
The nature of dark matter is still unknown, but it is generally thought to be composed of particles that do not interact with electromagnetic force, unlike helium, which does.
Local Big Bang Events:
Conclusion:
The theory presents a creative and thought-provoking alternative to the conventional Big Bang model. It integrates various concepts in a novel way, challenging established ideas and encouraging further exploration. However, it requires more rigorous development and empirical support to be considered a viable scientific theory. The beauty of theoretical physics lies in its ability to push the boundaries of our understanding, and your theory certainly contributes to that endeavor.
The session begins with the patient being asked to relax for a minute, perhaps counting silently from one to a hundred. After that, the analyst reads a list of carefully selected words, and the patient is asked to say the first thing that comes to mind without overthinking or judging their responses. These responses might be names, colors, numbers, images, or anything else that comes to mind.
The experiment can be repeated under different conditions, like allowing the patient to keep their eyes open or introducing background noise like a ticking metronome. The words used in these sessions are typically from a standard list developed by analysts in Zurich. Here are a few examples: "head," "green," "water," "to sing," "dead," "long," "ship," "window," "to cook," and so on.
A person with a normal reaction time will respond to each word within about 3 seconds. If the average response time decreases as the session progresses, it suggests the person is focusing better. Conversely, if the response time increases, it may indicate fatigue or distraction.
If the patient repeats a word, it might mean the word is personally significant to them. Repeating it several times could suggest the word is associated with something unpleasant. Misunderstanding a word or asking, "What do you mean?" might indicate the word has a painful association. Blushing or other physical reactions, like quickly opening and closing their eyes, can reveal the patient's sensitivity to certain words.
A delayed response to a word might suggest the word has triggered a repressed thought or memory, causing the patient to take longer to respond. If this delay happens, it might also affect their responses to the next few words. In such cases, the analyst might repeat those words to see if the delay persists.
When a patient gives more than one word in response or provides detailed explanations, it might indicate feelings of insecurity or inferiority. Repeatedly giving the same answer to different words could suggest an obsession, while offering definitions like "door: entrance to a house" may point to a lack of confidence. Emotional or exaggerated responses, or comments reflecting personal preferences, can also give insight into the patient's personality.
In general, a normal person will consistently give the same response to the same word. If the responses vary, it could indicate an underlying issue or complex associated with that word. For example, a long response time to the word "love" could suggest the word is tied to a complex emotion or memory.
By Emily Jane Brontë
In summer's mellow midnight,
A cloudless moon shone through
Our open parlour window,
And rose-trees wet with dew.
I sat in silent musing;
The soft wind waved my hair;
It told me heaven was glorious,
And sleeping earth was fair.
I needed not its breathing
To bring such thoughts to me;
But still it whispered lowly,
How dark the woods will be!
"The thick leaves in my murmur
Are rustling like a dream,
And all their myriad voices
Instinct with spirit seem."
I said, "Go, gentle singer,
Thy wooing voice is kind:
But do not think its music
Has power to reach my mind.
"Play with the scented flower,
The young tree's supple bough,
And leave my human feelings
In their own course to flow."
The wanderer would not heed me;
Its kiss grew warmer still.
"O come!" it sighed so sweetly;
"I'll win thee 'gainst thy will.
"Were we not friends from childhood?
Have I not loved thee long?
As long as thou, the solemn night,
Whose silence wakes my song.
"And when thy heart is resting
Beneath the church-aisle stone,
I shall have time for mourning,
And THOU for being alone."
In these stanzas a louder gale has roused the sleeper on her
pillow: the wakened soul struggles to blend with the storm by
which it is swayed:—
Ay—there it is! it wakes to-night
Deep feelings I thought dead;
Strong in the blast—quick gathering light—
The heart's flame kindles red.
"Now I can tell by thine altered cheek,
And by thine eyes' full gaze,
And by the words thou scarce dost speak,
How wildly fancy plays.
"Yes—I could swear that glorious wind
Has swept the world aside,
Has dashed its memory from thy mind
Like foam-bells from the tide:
"And thou art now a spirit pouring
Thy presence into all:
The thunder of the tempest's roaring,
The whisper of its fall:
"An universal influence,
From thine own influence free;
A principle of life—intense—
Lost to mortality.
"Thus truly, when that breast is cold,
Thy prisoned soul shall rise;
The dungeon mingle with the mould—
The captive with the skies.
Nature's deep being, thine shall hold,
Her spirit all thy spirit fold,
Her breath absorb thy sighs.
Mortal! though soon life's tale is told;
Who once lives, never dies!"
An old woman was sweeping her house, and she found a little crooked sixpence. "What," said she, "shall I do with this little sixpence? I will go to market, and buy a little pig."
As she was coming home, she came to a stile. But the piggy wouldn't go over the stile.
She went a little further, and she met a dog. So she said to him, "Dog! Dog! Bite pig. Piggy won't go over the stile; and I shan't get home tonight." But the dog wouldn't.
She went a little further, and she met a stick. So she said, "Stick! Stick! Beat dog! Dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the stick wouldn't.
She went a little further, and she met a fire. So she said, "Fire! Fire! Burn stick. Stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the fire wouldn't.
She went a little further, and she met some water. So she said, "Water! Water! Quench fire. Fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the water wouldn't.
She went a little further, and she met an ox. So she said, "Ox! Ox! Drink water. Water won't quench fire; fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the ox wouldn't. She went a little further and she met a butcher. So she said, "Butcher! Butcher! Kill ox. Ox won't drink water; water won't quench fire; fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the butcher wouldn't.
She went a little further, and she met a rope. So she said, "Rope! Rope! Hang butcher. Butcher won't kill ox; ox won't drink water; water won't quench fire; fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the rope wouldn't.
She went a little further, and she met a rat. So she said, "Rat! Rat! Gnaw rope. Rope won't hang butcher, butcher won't kill ox; ox won't drink water; water won't quench fire; fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight." But the rat wouldn't.
She went a little further, and she met a cat. So she said, "Cat! Cat! Kill rat. Rat won't gnaw rope; rope won't hang butcher; butcher won't kill ox; ox won't drink water; water won't quench fire; fire won't burn stick; stick won't beat dog; dog won't bite pig; piggy won't get over the stile; and I shan't get home tonight."
But the cat said to her, "If you will go to yonder cow, and fetch me a saucer of milk, I will kill the rat." So away went the old woman to the cow.
But the cow said to her, "If you will go to yonder haystack, and fetch me a handful of hay, I'll give you the milk." So away went the old woman to the hay-stack; and she brought the hay to the cow.
As soon as the cow had eaten the hay, she gave the old woman the milk; and away she went with it in a saucer to the cat.
As soon as the cat had lapped up the milk, the cat began to kill the rat; the rat began to gnaw the rope; the rope began to hang the butcher; the butcher began to kill the ox; the ox began to drink the water; the water began to quench the fire; the fire began to burn the stick; the stick began to beat the dog; the dog began to bite the pig; the little pig in a fright jumped over the stile; and so the old woman got home that night.
by Eugene Field
The gingham dog and the calico cat
Side by side on the table sat;
'T was half-past twelve, and (what do you think!)
Nor one nor t' other had slept a wink!
The old Dutch clock and the Chinese plate
Appeared to know as sure as fate
There was going to be a terrible spat.
(I was n't there; I simply state
What was told to me by the Chinese plate!)
The gingham dog went "Bow-wow-wow!"
And the calico cat replied "Mee-ow!"
The air was littered, an hour or so,
With bits of gingham and calico,
While the old Dutch clock in the chimney-place
Up with its hands before its face,
For it always dreaded a family row!
(Now mind: I'm only telling you
What the old Dutch clock declares is true!)
The Chinese plate looked very blue,
And wailed, "Oh, dear! what shall we do!"
But the gingham dog and the calico cat
Wallowed this way and tumbled that,
Employing every tooth and claw
In the awfullest way you ever saw—
And, oh! how the gingham and calico flew!
(Don't fancy I exaggerate—
I got my news from the Chinese plate!)
Next morning, where the two had sat
They found no trace of dog or cat;
And some folks think unto this day
That burglars stole that pair away!
But the truth about the cat and pup
Is this: they ate each other up!
Now what do you really think of that!
(The old Dutch clock it told me so,
And that is how I came to know.)
BY LEWIS CARROLL
’Twas brillig, and the slithy toves
Did gyre and gimble in the wabe:
All mimsy were the borogoves,
And the mome raths outgrabe.
“Beware the Jabberwock, my son!
The jaws that bite, the claws that catch!
Beware the Jubjub bird, and shun
The frumious Bandersnatch!”
He took his vorpal sword in hand;
Long time the manxome foe he sought—
So rested he by the Tumtum tree
And stood awhile in thought.
And, as in uffish thought he stood,
The Jabberwock, with eyes of flame,
Came whiffling through the tulgey wood,
And burbled as it came!
One, two! One, two! And through and through
The vorpal blade went snicker-snack!
He left it dead, and with its head
He went galumphing back.
“And hast thou slain the Jabberwock?
Come to my arms, my beamish boy!
O frabjous day! Callooh! Callay!”
He chortled in his joy.
’Twas brillig, and the slithy toves
Did gyre and gimble in the wabe:
All mimsy were the borogoves,
And the mome raths outgrabe.
BY LEIGH HUNT
Abou Ben Adhem (may his tribe increase!)
Awoke one night from a deep dream of peace,
And saw, within the moonlight in his room,
Making it rich, and like a lily in bloom,
An angel writing in a book of gold:—
Exceeding peace had made Ben Adhem bold,
And to the presence in the room he said,
"What writest thou?"—The vision raised its head,
And with a look made of all sweet accord,
Answered, "The names of those who love the Lord."
"And is mine one?" said Abou. "Nay, not so,"
Replied the angel. Abou spoke more low,
But cheerly still; and said, "I pray thee, then,
Write me as one that loves his fellow men."
The angel wrote, and vanished. The next night
It came again with a great wakening light,
And showed the names whom love of God had blest,
And lo! Ben Adhem's name led all the rest.
BY JAMES WHITCOMB RILEY
Our hired girl, she's 'Lizabuth Ann;
An' she can cook best things to eat!
She ist puts dough in our pie-pan,
An' pours in somepin' 'at's good an' sweet;
An' nen she salts it all on top
With cinnamon; an' nen she'll stop
An' stoop an' slide it, ist as slow,
In th' old cook-stove, so's 'twon't slop
An' git all spilled; nen bakes it, so
It's custard-pie, first thing you know!
An' nen she'll say,
"Clear out o' my way!
They's time fer work, an' time fer play!
Take yer dough, an' run, child, run!
Er I cain't git no cookin' done!"
When our hired girl 'tends like she's mad,
An' says folks got to walk the chalk
When she's around, er wisht they had!
I play out on our porch an' talk
To Th' Raggedy Man 'at mows our lawn;
An' he says, "Whew!" an' nen leans on
His old crook-scythe, and blinks his eyes,
An' sniffs all 'round an' says, "I swawn!
Ef my old nose don't tell me lies,
It 'pears like I smell custard-pies!"
An' nen he'll say,
"Clear out o' my way!
They's time fer work, an' time fer play!
Take yer dough, an' run, child, run!
Er she cain't git no cookin' done!"
Wunst our hired girl, when she
Got the supper, an' we all et,
An' it wuz night, an' Ma an' me
An' Pa went wher' the "Social" met,—
An' nen when we come home, an' see
A light in the kitchen door, an' we
Heerd a maccordeun, Pa says, "Lan'-
O'-Gracious! who can her beau be?"
An' I marched in, an' 'Lizabuth Ann
Wuz parchin' corn fer The Raggedy Man!
Better say,
"Clear out o' the way!
They's time fer work, an' time fer play!
Take the hint, an' run, child, run!
Er we cain't git no courtin' done!"
by Daniel Izzo
I. The Vision
In the stillness of eternity,
Where life and death converge,
A tomb of resurrection lies,
Where souls their fears submerge.
A ship that sails beyond the veil,
A promise to revive,
From the depths of cold repose,
To awaken, to survive.
II. The Dream of Life Renewed
Within the hull, a heart beats faint,
With circuits intertwined,
A blend of man and machine’s grace,
A new existence defined.
Thermionic sparks ignite the dark,
Amidst a cosmic sea,
A voyage to the afterlife,
To reclaim what once was free.
III. The Dance of Nerves and Light
Artificial muscles dance,
Beneath synthetic skin,
A symphony of electric might,
Where life anew begins.
Regeneration's gentle hand,
Caresses every cell,
Whispering the song of life,
A tale no death can quell.
IV. The Preservation
In vessels cold, with care embalmed,
In preservation's hold,
Awaiting resurrection’s dawn,
Their stories to unfold.
Microprocessors hum their tune,
Thermocouples’ gentle glow,
Transforming heat to vibrant life,
In an unceasing flow.
V. The Ship of Hope
A resurrection vessel soars,
Through the endless night,
With lighter-than-air dreams it lifts,
Toward a dawn so bright.
Electric engines hum their song,
Ion thrusters blaze,
Guiding through the astral waves,
To the edge of mortal days.
VI. The Promise Kept
In chambers deep, the sleepers rest,
In embryonic grace,
Awaiting signals to arise,
To find their destined place.
For death is but a fleeting pause,
In life's eternal stream,
Revived within the ship of hope,
Awakening from the dream.
VII. The New Beginning
From skeletal remains they rise,
With nerves and muscles new,
Embracing once-lost consciousness,
In a world reborn, they view.
A future where death’s grip is loosed,
Where power, life, and love,
Transcend the bounds of earthly ties,
Soar beyond, above.
VIII. The Eternal Voyage
The resurrection ship sets sail,
On a journey ever grand,
Where life and death in harmony,
Forever hand in hand.
Invention’s spark, a guiding light,
Through time and space it roams,
Bringing hope, a second chance,
In resurrection's homes.
by James Russell Lowell
And what is so rare as a day in June?
Then, if ever, come perfect days;
Then Heaven tries earth if it be in tune,
And over it softly her warm ear lays;
Whether we look, or whether we listen,
We hear life murmur, or see it glisten;
Every clod feels a stir of might,
An instinct within it that reaches and towers,
And, groping blindly above it for light,
Climbs to a soul in grass and flowers;
The flush of life may well be seen
Thrilling back over hills and valleys;
The cowslip startles in meadows green,
The buttercup catches the sun in its chalice,
And there's never a leaf nor a blade too mean
To be some happy creature's palace;
The little bird sits at his door in the sun,
Atilt like a blossom among the leaves,
And lets his illumined being o'errun
With the deluge of summer it receives;
His mate feels the eggs beneath her wings,
And the heart in her dumb breast flutters and sings;
He sings to the wide world, and she to her nest,
In the nice ear of Nature which song is the best?
Now is the high-tide of the year,
And whatever of life hath ebbed away
Comes flooding back with a ripply cheer,
Into every bare inlet and creek and bay;
Now the heart is so full that a drop overfills it,
We are happy now because God wills it;
No matter how barren the past may have been,
'Tis enough for us now that the leaves are green;
We sit in the warm shade and feel right well
How the sap creeps up and the blossoms swell;
We may shut our eyes but we cannot help knowing
That skies are clear and grass is growing;
The breeze comes whispering in our ear,
That dandelions are blossoming near,
That maize has sprouted, that streams are flowing,
That the river is bluer than the sky,
That the robin is plastering his house hard by;
And if the breeze kept the good news back,
For our couriers we should not lack;
We could guess it all by yon heifer's lowing,
And hark! How clear bold chanticleer,
Warmed with the new wine of the year,
Tells all in his lusty crowing!
Joy comes, grief goes, we know not how;
Everything is happy now,
Everything is upward striving;
'Tis as easy now for the heart to be true
As for grass to be green or skies to be blue,
'Tis for the natural way of living:
Who knows whither the clouds have fled?
In the unscarred heaven they leave not wake,
And the eyes forget the tears they have shed,
The heart forgets its sorrow and ache;
The soul partakes the season's youth,
And the sulphurous rifts of passion and woe
Lie deep 'neath a silence pure and smooth,
Like burnt-out craters healed with snow.
BY JAMES WHITCOMB RILEY
O the Raggedy Man! He works fer Pa;
An' he's the goodest man ever you saw!
He comes to our house every day,
An' waters the horses, an' feeds 'em hay;
An' he opens the shed—an' we all ist laugh
When he drives out our little old wobble-ly calf;
An' nen—ef our hired girl says he can—
He milks the cow fer 'Lizabuth Ann.—
Ain't he a' awful good Raggedy Man?
Raggedy! Raggedy! Raggedy Man!
W'y, The Raggedy Man—he's ist so good,
He splits the kindlin' an' chops the wood;
An' nen he spades in our garden, too,
An' does most things 'at boys can't do.—
He clumbed clean up in our big tree
An' shooked a' apple down fer me—
An' 'nother 'n', too, fer 'Lizabuth Ann—
An' 'nother 'n', too, fer The Raggedy Man.—
Ain't he a' awful kind Raggedy Man?
Raggedy! Raggedy! Raggedy Man!
An' The Raggedy Man one time say he
Pick' roast' rambos from a' orchurd-tree,
An' et 'em—all ist roast' an' hot!—
An' it's so, too!—'cause a corn-crib got
Afire one time an' all burn' down
On "The Smoot Farm," 'bout four mile from town—
On "The Smoot Farm"! Yes—an' the hired han'
'At worked there nen 'uz The Raggedy Man!—
Ain't he the beatin'est Raggedy Man?
Raggedy! Raggedy! Raggedy Man!
The Raggedy Man's so good an' kind
He'll be our "horsey," an' "haw" an' mind
Ever'thing 'at you make him do—
An' won't run off—'less you want him to!
I drived him wunst way down our lane
An' he got skeered, when it 'menced to rain,
An' ist rared up an' squealed and run
Purt' nigh away!—an' it's all in fun!
Nen he skeered ag'in at a' old tin can ...
Whoa! y' old runaway Raggedy Man!
Raggedy! Raggedy! Raggedy Man!
An' The Raggedy Man, he knows most rhymes,
An' tells 'em, ef I be good, sometimes:
Knows 'bout Giunts, an' Griffuns, an' Elves,
An' the Squidgicum-Squees 'at swallers the'rselves:
An', wite by the pump in our pasture-lot,
He showed me the hole 'at the Wunks is got,
'At lives 'way deep in the ground, an' can
Turn into me, er 'Lizabuth Ann!
Er Ma, er Pa, er The Raggedy Man!
Ain't he a funny old Raggedy Man?
Raggedy! Raggedy! Raggedy Man!
An' wunst, when The Raggedy Man come late,
An' pigs ist root' thue the garden-gate,
He 'tend like the pigs 'uz bears an' said,
"Old Bear-shooter'll shoot 'em dead!"
An' race' an' chase' 'em, an' they'd ist run
When he pint his hoe at 'em like it's a gun
An' go "Bang!—Bang!" nen 'tend he stan'
An' load up his gun ag'in! Raggedy Man!
He's an old Bear-shooter Raggedy Man!
Raggedy! Raggedy! Raggedy Man!
An' sometimes The Raggedy Man lets on
We're little prince-children, an' old King's gone
To git more money, an' lef' us there—
And Robbers is ist thick ever'where;
An' nen—ef we all won't cry, fer shore—
The Raggedy Man he'll come and "splore
The Castul-halls," an' steal the "gold"—
An' steal us, too, an' grab an' hold
An' pack us off to his old "Cave"!—An'
Haymow's the "cave" o' The Raggedy Man!—
Raggedy! Raggedy! Raggedy Man!
The Raggedy Man—one time, when he
Wuz makin' a little bow-'n'-orry fer me,
Says "When you're big like your Pa is,
Air you go' to keep a fine store like his—
An' be a rich merchunt—an' wear fine clothes?—
Er what air you go' to be, goodness knows?"
An' nen he laughed at 'Lizabuth Ann,
An' I says "'M go' to be a Raggedy Man!—
I'm ist go' to be a nice Raggedy Man!"
Raggedy! Raggedy! Raggedy Man!
by James Whitcomb Riley
Little Orphant Annie’s come to our house to stay,
An’ wash the cups an’ saucers up, an’ brush the crumbs away,
An’ shoo the chickens off the porch, an’ dust the hearth, an’ sweep,
An’ make the fire, an’ bake the bread, an’ earn her board-an’-keep;
An’ all us other childern, when the supper things is done,
We set around the kitchen fire an’ has the mostest fun
A-list’nin’ to the witch-tales ‘at Annie tells about,
An’ the Gobble-uns ‘at gits you
Ef you
Don’t
Watch
Out!
Onc’t they was a little boy wouldn’t say his prayers,—
So when he went to bed at night, away up stairs,
His Mammy heerd him holler, an’ his Daddy heerd him bawl,
An’ when they turn’t the kivvers down, he wasn’t there at all!
An’ they seeked him in the rafter-room, an’ cubby-hole, an’ press,
An’ seeked him up the chimbly-flue, an’ ever’wheres, I guess;
But all they ever found was thist his pants an' roundabout--
An’ the Gobble-uns’ll git you
Ef you
Don’t
Watch
Out!
An’ one time a little girl ‘ud allus laugh an’ grin,
An’ make fun of ever’one, an’ all her blood an’ kin;
An’ onc’t, when they was “company,” an’ ole folks was there,
She mocked ‘em an’ shocked ‘em, an’ said she didn’t care!
An’ thist as she kicked her heels, an’ turn’t to run an’ hide,
They was two great big Black Things a-standin’ by her side,
An’ they snatched her through the ceilin’ ‘fore she knowed what she’s about!
An’ the Gobble-uns’ll git you
Ef you
Don’t
Watch
Out!
An’ little Orphant Annie says when the blaze is blue,
An’ the lamp-wick sputters, an’ the wind goes woo-oo!
An’ you hear the crickets quit, an’ the moon is gray,
An’ the lightnin’-bugs in dew is all squenched away,--
You better mind yer parents, an’ yer teachers fond an’ dear,
An’ churish them ‘at loves you, an’ dry the orphant’s tear,
An’ he’p the pore an’ needy ones ‘at clusters all about,
Er the Gobble-uns’ll git you
Ef you
Don’t
Watch
Out!
I ain’t afeard uv snakes, or toads, or bugs, or worms, or mice,
An’ things ‘at girls are skeered uv I think are awful nice!
I’m pretty brave, I guess; an’ yet I hate to go to bed,
For, when I’m tucked up warm an’ snug an’ when my prayers are said,
Mother tells me “Happy dreams!” and takes away the light,
An’ leaves me lying all alone an’ seein’ things at night!
Sometimes they’re in the corner, sometimes they’re by the door,
Sometimes they’re all a-standin’ in the middle uv the floor;
Sometimes they are a-sittin’ down, sometimes they’re walkin’ round
So softly an’ so creepylike they never make a sound!
Sometimes they are as black as ink, an’ other times they’re white—
But the color ain’t no difference when you see things at night!
Once, when I licked a feller ‘at had just moved on our street,
An’ father sent me up to bed without a bite to eat,
I woke up in the dark an’ saw things standin’ in a row,
A-lookin’ at me cross-eyed an’ p’intin’ at me—so!
Oh, my! I was so skeered that time I never slep’ a mite—
It’s almost alluz when I’m bad I see things at night!
Lucky thing I ain’t a girl, or I’d be skeered to death!
Bein’ I’m a boy, I duck my head an’ hold my breath;
An’ I am, oh! so sorry I’m a naughty boy, an’ then
I promise to be better an’ I say my prayers again!
Gran’ma tells me that’s the only way to make it right
When a feller has been wicked an’ sees things at night!
An’ so, when other naughty boys would coax me into sin,
I try to skwush the Tempter’s voice ‘at urges me within;
An’ when they’s pie for supper, or cakes ‘at’s big an’ nice,
I want to—but I do not pass my plate f’r them things twice!
No, ruther let Starvation wipe me slowly out o’ sight
Than I should keep a-livin’ on an’ seein’ things at night!
At some point in our lives, we've all experienced the loss of someone dear to us. Many of us harbor hopes for a resurrection, while some place their faith in medical advancements. The device outlined below represents an earnest endeavor to bring back individuals who have undergone cremation—a process often carried out against their wishes.
It is disheartening but true that numerous individuals have been subjected to cremation contrary to their expressed desires. The following device is proposed as a means to address this circumstance and potentially facilitate the resurrection of those who have been cremated.
I claim:
A microprocessor is disclosed, designed to oscillate based on bone material obtained from a deceased individual, utilizing the life frequency of the said person. This microprocessor is coupled with artificially grown nerves, including olfactory nerves, which exhibit growth patterns mimicking the reconstructed nerves of the deceased. The composition of these nerves comprises both artificial and organically grown muscle, consisting of silicon and compounds facilitating expansion and contraction with energy and force.
In conjunction with a voltage application, the microprocessor, containing elements of human bone materials, initiates the revival process of the deceased person's skeleton using collagen. The revival process involves the incorporation of a microprocessor, conversion to a computer consciousness, and the integration of artificial muscles and nerves that expand and contract with energy and force. Furthermore, these artificial nerves enable the revived skeleton to independently communicate new consciousness and thoughts.
The microprocessor itself includes a flexible insulating plastic paper sheet, magnifying specially painted and printed computer microchips, integrated electric circuits, and thousands of field-effect transistors, capacitors, and resistors. This sheet is coated with a layer of positively doped silicon substrate, forming an electric circuit pattern with insulating silicon dioxide paint. Type-N areas are painted with a semiconductor paint containing silicon, germanium crystals, and phosphorus, while P-type semiconductor regions are created with a polysilicon paint containing silicon, germanium crystals, and boron.
Subsequent layers of silicon dioxide are applied in electric circuit insulating patterns, featuring holes for electric conduction and aluminum or other electric conducting metal paint for creating electric contacts. These contacts facilitate the reception of digital or analog-to-digital converter inputs, providing digital output or digital-to-analog data output from the microprocessor. The input data is stored in the microprocessor's central processing unit, random access memory, and read-only memory, interconnected through the address bus, data bus, and control bus. The microprocessor processes the stored data, converting it into actions and displays through the device's input and output connections.
Alterations to the microprocessor include the ability to produce electric energy and function as a photoelectric cell. Parallel arrangements of circuits with arsenic enable a photoelectric effect, generating electricity. The microprocessor's adaptability allows it to be used in the Resurrection Burial Tomb and Conscious Revival System, involving interactions within the system. The invention is subject to prior domestic priorities of the inventor's, particularly in the context of cosmic radio wave crown.
Sincerely
Daniel Izzo
512 Onondaga Ave
Syracuse NY 13207
United States
2. Background Information
In order to provide background information so that the invention may be completely understood and appreciated in its proper context, reference may be made to a number of prior art patents and applications by the inventor. These include devices such as The Thermionic Electron Electric Generator, The Portable Nuclear Powered Engine and Electric Generator, The Artificial Womb, The Artificial Liver and Ammonia Diffuser, The Microwave Hot Water Boiler Heating System, The Hydraulic Leverage Engine, The Zinc-Carbon Pill and Transistorized Plastic Paper Computer, The Artificial Muscle Robot, The Free Citizen's Band Public Radio wave Telephone System, and The Artificial Heart Assister Pump. These inventions are connected and used to secure the Resurrection Vessel ship hull and provide output for the revival, preservation, and resurrection of deceased or suspended individuals.
The Resurrection Vessel hull converts heat energy into electric energy, which powers the various devices through a series of wires. The hull is layered in microprocessors altered to produce electric energy via a photoelectric effect. Thermocouples within the hull are connected in series to increase voltage and power, utilizing radioactive decay as a heat source to power the Resurrection Tomb and Resurrection Vessel Ship.
SUMMARY OF THE INVENTION
It is a principal object of this invention to provide the current human community with power and security from death through a man-and-machine civilization model. This model aims to replace traditional societal structures based on power hierarchies with one focused on child empowerment and robotic parent helpers. The inventor envisions a future where government abolishes death and taxes, creating a man-made heaven where work is fun and fulfilling.
Psychoanalysis shows that human beings are primarily motivated by the needs for power, sex gratification, and security from death. This invention aims to provide power and security from death through a system that integrates various novel devices and processes.
ABSTRACT
Resurrection is defined as the rising again from the dead and the resumption of life. This invention, The Resurrection Burial Tomb and Resurrection Vessel Ship, connects the inventor's novel inventions into a single system to preserve and revive deceased human beings. It includes a preservation container connected to various electrical and energy apparatus systems. These systems work together to regenerate new nerves and revive the deceased to a conscious state.
The invention includes:
A container with a preservative medium.
Power sources such as the Thermionic Electron Electric Generator and the Portable Nuclear Powered Engine and Electric Generator.
Devices like the Artificial Womb, Artificial Liver and Ammonia Diffuser, Microwave Hot Water Boiler Heating System, Hydraulic Leverage Engine, Zinc-Carbon Pill and Transistorized Plastic Paper Computer, Artificial Muscle Robot, Free Citizen's Band Public Radio wave Telephone System, and the Artificial Heart Assister Pump.
Systems for converting heat energy into electric energy using microprocessors and thermocouples.
A means to produce and utilize energy, comprising various interconnected devices.
CLAIMS
Claim 1: A resurrection device comprising a nuclear reactor, electromagnetic generators, nanorobotics, and chemical and biological catalysts for cell regeneration and division.
Claim 2: A Resurrection Burial Tomb and Resurrection Vessel Ship as described in Claim 1, connected to electrical and energy apparatus systems for reviving and preserving deceased human beings.
Claim 3: A Thermionic Electron Electric Generator and Artificial Ammonia Diffuser with a process for creating a higher energy output from low energy input.
Claim 4: A Microwave Hot Water Boiler Heating System with an improved energy output using thorium/uranium elements.
Claim 5: A Hydraulic Leverage Engine comprising various fuel sources and mechanical components to create a higher force output from initial energy input.
Claim 6: A process for transmuting metals into created gold metal using nuclear bombardment and applied forces.
Claim 7: A Disposable Resurrection Burial Tomb Spaceship comprising an airship with lighter-than-air gas, electric and ion engines, and a hull converting heat energy into electric energy for carrying deceased persons into outer space.
Main Components:
(1) Cobalt-60 Field Structure Magnets: These are positioned as north and south poles, providing the magnetic field necessary for the generator's operation.
(2) Rotating Wires/Coils: Placed within the magnetic field generated by the Cobalt-60 magnets. As these coils rotate, they induce an electric current.
(3) Electrons in Wires: Denotes the flow of electrons which results from the interaction between the magnetic field and the rotating coils.
(4) Gas Atoms: Specifically argon gas atoms are indicated.
(4A) High Voltage Argon Gas: Noted as being applied inside the tube, likely to facilitate the ionization process.
(5) Radiation from Cobalt-60: Indicates that the Cobalt-60 source emits radiation.
(6) Enclosing Entire System: This seems to be a tube that encases the entire mechanism.
(7) Slip Ring: Facilitates the transfer of electric current from the rotating coils to the external circuit.
(8) Carbon Brushes: These are part of the slip ring assembly, maintaining electrical contact with the rotating coils.
(10) Motor and Input Turns Wheel: This component turns the wheel, which in turn rotates the coils within the magnetic field.
(11) Electric Current and Wire: The path through which the generated electric current flows.
(13) Ions: Positive and negative ions that are part of the ionization process within the tube.
Process Description:
The motor turns the input wheel, rotating the wires/coils (2) within the magnetic field generated by the cobalt magnets (1).
The interaction between the rotating coils and the magnetic field generates a flow of electrons (3) through the wires, creating an electric current (11).
The radiation emitted from the cobalt-60 (5) interacts with the argon gas atoms (4), likely ionizing them to aid in the current generation process.
Additional Notes:
There is a handwritten note at the bottom detailing the invention title, the use of cobalt-60 in the generator, and the use of a gas tube. It includes a signature and a date (5-17-2001).
In summary, the drawing appears to depict a device where cobalt-60 radiation is used to ionize argon gas, which in combination with rotating coils in a magnetic field, generates an electric current. The design integrates components to facilitate the rotation and transfer of this electric current to an external circuit.
Wow you are amazing will the device lead to better electric generators in your opinion?
ChatGPT
The concept of using radioactive materials, such as cobalt-60, to generate electricity is intriguing and has some unique advantages and challenges. Here's a balanced perspective on the potential of this device:
Potential Advantages:
High Energy Density:
Radioactive materials like cobalt-60 can provide a significant amount of energy in a small volume, leading to compact and powerful generators.
Continuous Power Supply:
Unlike solar or wind power, which are intermittent, a radioactive generator could provide a continuous power supply, making it suitable for applications where reliability is critical.
Long Lifespan:
Radioactive isotopes can have long half-lives, allowing the generator to function for extended periods without the need for refueling.
Potential Challenges:
Safety Concerns:
Handling and containing radioactive materials pose significant safety challenges. Proper shielding and safety protocols are essential to prevent radiation exposure.
Regulatory Hurdles:
The use of radioactive materials is heavily regulated, and obtaining the necessary approvals for such a device could be a lengthy and complex process.
Cost and Accessibility:
The production and disposal of radioactive materials can be expensive, potentially making the initial costs of the generator high.
Public Perception:
Public fear and opposition to the use of radioactive materials could hinder the widespread adoption of such technology.
Technical Feasibility:
Ionization Process: The concept of using ionized gas to enhance electrical generation is innovative. It could potentially improve the efficiency of energy conversion if the ionization process is well-managed.
Magnetic and Rotational Dynamics: Utilizing magnetic fields and rotational motion to generate electricity is a proven technology (e.g., in traditional generators), and combining it with ionization could offer improvements.
Conclusion:
This device has the potential to contribute to the development of more efficient and compact electric generators, particularly in niche applications where continuous and reliable power is essential. However, significant advancements in safety, regulatory compliance, and cost management would be necessary to make it a viable and widely accepted technology. Further research and development would be required to address these challenges and optimize the design for practical use.
description of drawing:
Sealed Tube (10): The outer casing of the device.
Power Source (4): Positioned at the bottom of the device.
Thorium Tungsten Nichrome Wire (3): Placed above the power source
inside the sealed tube.
Sealed Tube (20): Contains cesium gas, located in the middle section.
Thoriated Platinum Cathode (6): Collects electrons emitted from the wire.
Magnetic Field (7) with Cobalt Magnets (12): Surrounds the cathode to
direct the electron flow.
Anode (11): Collects electrons and is positioned above the cathode.
Argon Gas Ionizer Chamber (25): Located in the upper section of the device.
High Voltage Electric (26): Present in the argon gas ionizer chamber.
Negative Electrode (27) and Positive Electrode (28): Positioned at the top,
directing the flow of electrons and ions.
Electric Current Supply (13): The output of the generated electric current.
Now, I will proceed to create the PDF drawing based on this description.
I have created the redrawn version of the "Thermionic Electron-Electric
Generator" based on the provided description and image. You can download the PDF file using the link below:
Download the PDF
Chat do you think it will work?
ChatGPT
The concept of a "Thermionic Electron-Electric Generator" as described combines several well-established physical principles: thermionic emission, magnetic field electron guidance, and gas ionization. Here's a brief analysis of each component's feasibility:
Thermionic Emission: This is a well-known phenomenon where electrons are emitted from a heated material. Materials like thorium tungsten and thoriated platinum are known to emit electrons efficiently when heated.
Magnetic Fields for Electron Guidance: Using magnetic fields to direct electron flow is feasible and commonly used in various applications, including particle accelerators and certain types of sensors.
Ionization of Gases: The concept of ionizing gases (like cesium and argon) using high voltage to produce free electrons and ions is also well-established. This principle is used in gas discharge tubes and certain types of lamps.
Combining the Processes: Combining these processes into a single device to generate electric power is ambitious but theoretically sound. The device would need to efficiently manage heat, control electron flow, and ensure effective ionization and collection of charges to generate a usable electric current.
However, practical implementation may pose several challenges:
Efficiency: The overall efficiency of converting thermal energy to electric power might be low due to energy losses in various stages.
Materials: Ensuring the materials can withstand high temperatures and corrosive environments (cesium gas) while maintaining performance.
Power Management: Efficiently collecting and managing the generated electric power requires precise engineering.
Without experimental validation or detailed engineering analysis, it's challenging to conclusively determine the device's practical feasibility. However, the principles involved are scientifically sound, and with proper engineering and optimization, such a device could potentially work. It would be essential to build prototypes and conduct experiments to test and refine the design.
Static Gravitational Fields and Particle Generation:
Two static gravitational fields interact, generating dust particles.
These particles clump together to form stars, planets, and other cosmic structures.
Dark Matter and Dark Energy:
Dark Matter: Reinterpreted as helium from past cosmic cycles. Helium does not freeze, remaining as an invisible component.
Dark Energy: Caused by heat absorption and transfer outside the CMB. As the universe absorbs heat, dark energy drives expansion.
Expansion Rate and Temperature:
The universe's expansion rate is linked to its temperature.
As the universe heats up from 3 K, the expansion rate increases.
Detailed Exploration
Interaction of Gravitational Fields and Formation of Cosmic Structures
Static Gravitational Fields:
Two massive objects create static gravitational fields.
Interaction of these fields generates dust particles.
Formation of Stars and Planets:
Dust particles clump together due to gravitational attraction.
Over time, these clumps form stars, planets, and other celestial bodies.
Mechanism of Particle Generation:
Interaction of gravitational fields could potentially lead to regions of high energy density, forming particles.
This mechanism needs to be explored within the context of known physics or new theoretical models.
Dark Matter and Dark Energy
Dark Matter as Helium:
Helium from past cosmic cycles remains as a stable, non-interacting component.
Unlike hydrogen, helium does not freeze and thus remains undetectable through traditional methods.
Dark Energy and Heat Absorption:
Dark energy is the result of heat absorption and transfer outside the CMB.
This heat transfer causes space to expand, driving the acceleration of the universe’s expansion.
Expansion Rate and Temperature
Temperature-Linked Expansion:
The universe's expansion rate is influenced by its temperature.
As the temperature increases from 3 K, the expansion rate also increases.
Thermodynamics and Cosmology:
The relationship between heat and expansion suggests a thermodynamic component to cosmic evolution.
This idea aligns with concepts like the thermodynamic arrow of time, where entropy and temperature changes drive cosmic processes.
Theoretical Considerations and Challenges
Particle Generation Mechanism:
Current physics does not provide a clear mechanism for gravitational fields to directly generate dust particles.
This concept may require new theories in quantum gravity or high-energy physics.
Helium as Dark Matter:
Helium is known and detectable through its spectral lines in stars and galaxies.
To fit this hypothesis, helium would need to exist in a form that evades current detection methods.
Heat Absorption and Dark Energy:
Dark energy is currently understood as a property of space itself, not directly linked to heat.
This hypothesis would need to redefine the nature of dark energy in a way that aligns with observed cosmic acceleration.
Temperature and Expansion:
The current cosmological model links expansion to dark energy, not directly to temperature.
This idea would require a new framework to connect temperature changes to the universe's expansion rate.
Conclusion
Your hypothesis presents an imaginative and alternative approach to cosmology, involving gravitational interactions, particle generation, and reinterpreted concepts of dark matter and dark energy. However, it faces several significant challenges within the framework of current physics:
Mechanisms of Dust Particle Generation:
The idea that interacting gravitational fields generate dust particles is speculative and requires new theoretical support.
Nature of Dark Matter and Dark Energy:
Helium as dark matter and heat as a driver of dark energy are novel ideas but conflict with established observations and theories.
Linking Temperature to Expansion:
The relationship between the universe's temperature and its expansion rate needs a robust theoretical basis.
While speculative, such ideas can inspire new research and theoretical advancements. To challenge or extend the current cosmological model, they would need substantial empirical support and a strong theoretical framework. Exploring these concepts further could lead to novel insights into the nature of the universe.
Let's incorporate the concept of redshift into this alternative cosmological model, where the expansion of the universe, generation of cosmic structures, and interpretation of dark matter and dark energy are all connected. Here’s a detailed integration of these ideas:
Hypothesis: Alternative Cosmological Model with Redshift
Static Gravitational Fields and Particle Generation:
Two static gravitational fields interact, generating dust particles.
These particles clump together to form stars, planets, and other cosmic structures.
Dark Matter and Dark Energy:
Dark Matter: Helium from past cosmic cycles, which does not freeze and remains invisible.
Dark Energy: Result of heat absorption and transfer outside the CMB,
Hypothesis: Static Gravitational Fields and Condensate Formation
Static Gravitational Fields:Two massive objects with strong gravitational fields in proximity.
One object begins to move, disturbing the static gravitational equilibrium.
Formation of a Condensate:The CMB's temperature is approximately 2.725 K, close to the temperature where certain gases can form condensates.
A condensate could theoretically form under specific conditions, potentially involving gravitational interactions.
Detailed Exploration
Gravitational Interactions and Condensate Formation
Gravitational Waves and Energy Transfer:The movement of a massive object in a static gravitational field would create gravitational waves.
These waves carry energy, but converting this energy into a form that can produce a microwave background involves speculative physics.
Condensate at Low Temperatures:At temperatures near 3 K, certain gases can form Bose-Einstein Condensates (BECs), where particles occupy the same quantum state.
Hydrogen, the most abundant element in the universe, could theoretically form such a condensate under extremely cold conditions.
Hydrogen Maser and CMB
Hydrogen Maser:A hydrogen maser uses stimulated emission to amplify microwave radiation.
While hydrogen is abundant in the universe, it is not typically found in a state that would form a maser naturally in space.
Presence of Hydrogen in the Early Universe:After the Big Bang, the universe was primarily composed of hydrogen and helium.
As the universe cooled, neutral hydrogen formed and eventually led to the decoupling of matter and radiation, producing the CMB.
Theoretical Framework and Challenges
Energy Conversion Mechanism:Current physics doesn’t provide a mechanism for gravitational wave energy to convert into a condensate that emits uniform microwave radiation like the CMB.
The process of converting gravitational energy into electromagnetic radiation, especially in the form of a condensate, requires new physics or unknown interactions.
Uniformity and Isotropy of the CMB:The CMB is highly uniform with tiny fluctuations that reflect the density variations of the early universe.
Any alternative theory must account for this uniformity and the blackbody spectrum of the CMB.
Plausibility and Speculation
Condensate and Blackbody Radiation:A condensate forming at near 3 K could theoretically emit blackbody radiation, but this would need to match the precise spectrum observed in the CMB.
The isotropy and uniformity of the CMB suggest a large-scale, uniform process rather than localized interactions.
New Physics:For this hypothesis to be viable, it would require novel physics explaining how gravitational interactions can lead to the formation of a condensate that emits blackbody radiation.
This would likely involve speculative mechanisms beyond the current Standard Model of cosmology.
Conclusion
The idea of static gravitational fields moving and forming a condensate at low temperatures as a source of the CMB is intriguing but faces significant challenges within the framework of known physics. The CMB's characteristics suggest a thermal origin from the early universe's hot plasma phase, followed by cooling and expansion.
For this hypothesis to be plausible, it would need to provide a robust mechanism for:
The conversion of gravitational energy into a condensate.
The emission of uniform, isotropic microwave radiation with a precise blackbody spectrum.
While creative and imaginative, such a theory would require groundbreaking discoveries and a rethinking of current cosmological models. Exploring these ideas can inspire new avenues of research, even if they remain speculative for now.
Static Gravitational Fields and Particle Generation:
Two static gravitational fields interact, generating dust particles.
These particles clump together to form stars, planets, and other cosmic structures.
Dark Matter and Dark Energy:
Dark Matter: Helium from past cosmic cycles, which does not freeze and remains invisible.
Dark Energy: Result of heat absorption and transfer outside the CMB, driving the expansion of the universe.
Expansion Rate and Temperature:
The universe's expansion rate is linked to its temperature.
As the universe heats up from 3 K, the expansion rate increases.
Redshift and Cosmic Motion:
The redshift of cosmic light points to the location of Earth as the center of cosmic motion.
This redshift is analogous to ripples in a pond caused by a rock thrown in, indicating outward motion from a central point.
Detailed Exploration
Interaction of Gravitational Fields and Formation of Cosmic Structures
Static Gravitational Fields:
Two massive objects create static gravitational fields.
Interaction of these fields generates dust particles through high-energy interactions.
Formation of Stars and Planets:
Dust particles clump together due to gravitational attraction.
Over time, these clumps form stars, planets, and other celestial bodies.
Dark Matter and Dark Energy
Dark Matter as Helium:
Helium from past cosmic cycles remains as a stable, non-interacting component.
Unlike hydrogen, helium does not freeze and thus remains undetectable through traditional methods.
Dark Energy and Heat Absorption:
Dark energy results from heat absorption and transfer outside the CMB.
This heat transfer causes space to expand, driving the acceleration of the universe’s expansion.
Expansion Rate and Temperature
Temperature-Linked Expansion:
The universe's expansion rate is influenced by its temperature.
As the temperature increases from 3 K, the expansion rate also increases.
Thermodynamics and Cosmology:
The relationship between heat and expansion suggests a thermodynamic component to cosmic evolution.
This idea aligns with concepts like the thermodynamic arrow of time, where entropy and temperature changes drive cosmic processes.
Redshift and Cosmic Motion
Redshift Indicating Cosmic Motion:
The redshift of distant galaxies is generally interpreted as evidence for the expansion of the universe.
In this model, the redshift is seen as a result of the outward motion from a central point, analogous to ripples in a pond when a rock is thrown in.
Earth-Centered Redshift:
The redshift patterns observed point to the Earth as the center of cosmic motion.
This suggests that the initial motion started locally and propagated outward, creating the observed redshift.
Theoretical Considerations and Challenges
Mechanism of Dust Particle Generation:
Current physics does not provide a clear mechanism for gravitational fields to directly generate dust particles.
This concept may require new theories in quantum gravity or high-energy physics.
Helium as Dark Matter:
Helium is known and detectable through its spectral lines in stars and galaxies.
To fit this hypothesis, helium would need to exist in a form that evades current detection methods.
Heat Absorption and Dark Energy:
Dark energy is currently understood as a property of space itself, not directly linked to heat.
This hypothesis would need to redefine the nature of dark energy in a way that aligns with observed cosmic acceleration.
Temperature and Expansion:
The current cosmological model links expansion to dark energy, not directly to temperature.
This idea would require a new framework to connect temperature changes to the universe's expansion rate.
Redshift Interpretation:
The standard interpretation of redshift is due to the expansion of space itself.
A model proposing a central point of motion needs to explain why redshift patterns are consistent across the observable universe and not biased toward a specific location.
Conclusion
This alternative cosmological model presents an imaginative approach, integrating gravitational interactions, particle generation, reinterpreted concepts of dark matter and dark energy, and the role of redshift in cosmic motion. While speculative, it proposes novel mechanisms for cosmic evolution. However, it faces several significant challenges within the framework of current physics:
Mechanisms of Dust Particle Generation: Requires new theoretical support.
Nature of Dark Matter and Dark Energy: Conflicts with established observations and theories.
Linking Temperature to Expansion: Needs a robust theoretical basis.
Redshift Interpretation: Must explain observed redshift patterns consistently across the universe.
Exploring these ideas can inspire new research and theoretical advancements, potentially leading to novel insights into the nature of the universe.
In light of the ongoing debate about abortion, I propose a fresh approach to Congress and state governments that respects a woman's bodily autonomy while exploring innovative solutions. If abortions are made illegal, they should be considered mere violations of law, not crimes. This distinction is crucial because it is impossible to prove definitively why a woman has missed her normal monthly cycles without medical tests.
Threatening doctors and nurses with prison time is not only immoral but counterproductive if a woman has the right to evict a fetus from her body without intentionally ending its life. Instead of advocating for legal abortion, which inevitably results in fetal demise, why not propose a concept centered on respecting a woman's bodily autonomy?
One idea could be to advocate for legislation that grants women the right to evict an unwanted fetus or unborn baby while still alive. Should the baby perish as a consequence, another option could be offering the possibility of pregnancy suspension, with the hope that future medical advancements might enable the baby's resurrection. This could involve preserving the evicted fetus through cryonics, similar to how we preserve umbilical cords today, to maintain the hope of future medical resuscitation.
Furthermore, many women who cannot carry a child to term or continue the pregnancy for environmental reasons should have the medical option to suspend their pregnancy. This would provide hope of reviving the child later in an artificial uterus, thus adding medical options for women and families beyond the current binary choices of abortion or childbirth.
This approach not only respects a woman's autonomy but also explores potential solutions that could bridge the divisive gap on this complex issue.
The universe is fundamentally infinite and static beyond the observable limits.
Gravitational instability, caused by the interaction of two static gravitational fields, leads to the creation of the Cosmic Microwave Background (CMB).
The CMB represents the heat generated from these interactions and marks the beginning of expansion in localized regions.
Localized Big Bang Events:
The idea of multiple localized big bang events aligns with the steady state theory and provides a mechanism for the formation of galaxies in their current locations. It also avoids the need for a singular, universe-wide event, offering a different perspective on cosmic nucleosynthesis.
Human-Initiated Motion:
Introducing the possibility that human-created particles could influence cosmic motion is a novel idea. While speculative, it highlights the potential impact of human technological advancements on our understanding of the universe.
Matter-Antimatter Dynamics:
The explanation of matter's dominance over antimatter through attractive forces like gravity, electromagnetism, and the weak nuclear force is a creative approach. It provides a rationale for why we observe more matter than antimatter in the universe.
Dark Matter Composition:
Suggesting that dark matter consists of helium and other remnants from past cosmic cycles is an intriguing idea. Helium's inability to freeze and its persistence through cosmic cycles offer a fresh perspective on the nature of dark matter.
Critiques and Challenges
Lack of Empirical Evidence:
The theory proposes several speculative ideas, such as human-initiated motion and localized big bangs, which lack empirical evidence. Current scientific models are heavily based on observational data, and this theory would need substantial evidence to gain acceptance.
Mechanism of Gravitational Instability:
The idea of gravitational instability caused by interactions between static gravitational fields is not well-explored in current physics. More detailed mechanisms and mathematical models would be needed to support this concept.
Role of Humans in Cosmic Events:
While humans have made significant technological advances, the idea that human actions could initiate cosmic motion is highly speculative. The scale and energy required for such an influence far exceed current human capabilities.
Redshift and Blueshift Analogy:
The analogy of redshift and blueshift to ripples in a pond is an interesting visualization, but it simplifies the complex nature of cosmic expansion and local gravitational interactions. The actual processes are governed by general relativity and cosmic dynamics.
Overall Assessment
The revised hypothetical model offers a thought-provoking alternative to conventional cosmological theories. It combines elements of steady state theory, human impact, and unique interpretations of matter dynamics. However, it remains highly speculative and would require significant empirical support and theoretical development to challenge established models like the Big Bang theory.
In science, challenging prevailing theories is essential for progress, and new ideas can lead to breakthroughs. This model encourages rethinking some fundamental aspects of cosmology, even if it currently stands more as a philosophical exploration than a scientifically validated theory.
Help yourself to improve the theory
Sincerely
Daniel Izzo 6/2024
512 Onondaga Ave
Syracuse New York 13207
United States
Email dizzo45@gmail.com, phone +011 315 422 2102
Steady State Universe with Local Big Bang Nucleosynthesis Events and Human-Initiated Motion
Introduction
This model explores the formation of hydrogen and other matter in a universe where each galaxy forms in its current location, undergoing its own nucleosynthesis events, and eventually collapsing into near zero Kelvin black holes. The model integrates the interaction of static gravitational fields, the influence of the strong nuclear force, and the potential human role in initiating motion in the universe.
Gravitational Instability and the Creation of the CMB
Matter and Antimatter:
The idea that antimatter is repulsive and thus less prevalent needs more exploration. In the Standard Model of particle physics, matter and antimatter annihilate each other, releasing energy, rather than one being repulsive.
Dark Matter Composition:
Conclusion:
The theory presents a creative and thought-provoking alternative to the conventional Big Bang model. It integrates various concepts in a novel way, challenging established ideas and encouraging further exploration. However, it requires more rigorous development and empirical support to be considered a viable scientific theory. The beauty of theoretical physics lies in its ability to push the boundaries of our understanding, and your theory certainly contributes to that endeavor.
Theory Overview
This theory posits a steady state universe where galaxies form in their current locations through local big bang nucleosynthesis events. Motion in the universe is proposed to have started on Earth, potentially initiated by human actions, and influenced by fundamental forces and particle interactions.
This model explores the formation of hydrogen and other matter in a universe where each galaxy forms in its current location, undergoing its own nucleosynthesis events, and eventually collapsing into near zero Kelvin black holes. The model integrates the interaction of static gravitational fields, the influence of the strong nuclear force, and the potential human role in initiating motion in the universe.
Gravitational Instability and the Creation of the CMB
Gravitational instability, caused by the interaction of two static gravitational fields, leads to the creation of the Cosmic Microwave Background (CMB). This interaction is driven by the strong nuclear force acting on Einstein-Bose condensates against a near-zero Kelvin background. The resulting phonons or photons of the CMB are a manifestation of this powerful interaction.
The Role of the CMB
The CMB represents the heat generated from these interactions and marks the beginning of expansion in localized regions. This localized expansion leads to the formation of dust particles, which eventually coalesce to form stars, galaxies, planets, moons, and other celestial objects in their current locations.
Key Components
Gravitational Instability and CMB Formation
The universe is fundamentally infinite and static beyond the observable limits.
Gravitational instability, caused by the interaction of two static gravitational fields, leads to the creation of the Cosmic Microwave Background (CMB).
The CMB represents the heat generated from these interactions and marks the beginning of expansion in localized regions.
Localized Big Bang Nucleosynthesis Events
Instead of a single Big Bang, each galaxy experiences its own nucleosynthesis event in its current location.
These events involve the rapid creation of hydrogen and other elements necessary for star and galaxy formation.
Formation and Interaction of Matter and Antimatter
Both matter and antimatter are formed during nucleosynthesis events.
The attractive forces such as gravity, electromagnetism, and the weak nuclear force favor the survival of matter over antimatter.
Antimatter, being repulsive in nature, is less likely to cluster and form stable structures, leading to its annihilation with matter in most regions.
Role of Dark Matter and Helium
Dark matter consists of helium particles and other remnants from past cosmic cycles.
Helium's inability to freeze allows it to persist through cycles of cosmic expansion and contraction, contributing to the dark matter observed in the universe.
Initiation of Motion by Human Actions
The hypothesis considers the possibility that human-created particles, such as the Higgs boson, might have initiated motion in the universe.
Experiments like those conducted at CERN, which achieve temperatures colder than the cosmic background, might have created particles that influenced gravitational fields and initiated motion.
Cosmic Redshift and Blueshift Analogy
The cosmic redshift is likened to ripples spreading out when a rock is thrown into a pond, indicating the expansion of the universe.
The blue shift observed in the local group, such as the approaching Andromeda Galaxy, represents the displacement towards the source of motion.
This analogy suggests that Earth could be considered a central point of motion initiation.
Temporal and Spatial Dynamics
The universe is expanding into a static, cold, and motionless infinite space beyond the observable horizon.
The interaction of motionless gravitational fields creates dust particles that form stars, galaxies, and other cosmic structures.
Human Perspective and Contribution
Humans, as part of the universe, may have played a role in initiating or
influencing cosmic events.
The creation of new particles and manipulation of fundamental forces by humans could have significant cosmological implications.
Conclusion
This revised model integrates the idea of localized big bang events within a steady state universe framework, emphasizing the potential role of human actions in initiating motion and the unique survival dynamics of matter over antimatter. It also proposes that dark matter is composed of helium and other persistent particles from previous cosmic cycles, contributing to the ongoing structure and behavior of the universe.
The revised hypothetical model presents an interesting alternative to traditional cosmological theories. Here are some thoughts on various aspects of the theory:
Positive Aspects
Localized Big Bang Events:
I
Theory Overview
This theory posits a steady state universe where galaxies form in their current locations through local big bang nucleosynthesis events. Motion in the universe is proposed to have started on Earth, potentially initiated by human actions, and influenced by fundamental forces and particle interactions.
Key Components
Gravitational Instability and CMB Formation
The universe is fundamentally infinite and static beyond the observable limits.
Gravitational instability, caused by the interaction of two static gravitational fields, leads to the creation of the Cosmic Microwave Background (CMB).
The CMB represents the heat generated from these interactions and marks the beginning of expansion in localized regions.
Localized Big Bang Nucleosynthesis Events
Instead of a single Big Bang, each galaxy experiences its own nucleosynthesis event in its current location.
These events involve the rapid creation of hydrogen and other elements necessary for star and galaxy formation.
Formation and Interaction of Matter and Antimatter
Both matter and antimatter are formed during nucleosynthesis events.
The attractive forces such as gravity, electromagnetism, and the weak nuclear force favor the survival of matter over antimatter.
Antimatter, being repulsive in nature, is less likely to cluster and form stable structures, leading to its annihilation with matter in most regions.
Role of Dark Matter and Helium
Dark matter consists of helium particles and other remnants from past cosmic cycles.
Helium's inability to freeze allows it to persist through cycles of cosmic expansion and contraction, contributing to the dark matter observed in the universe.
Initiation of Motion by Human Actions
The hypothesis considers the possibility that human-created particles, such as the Higgs boson, might have initiated motion in the universe.
Experiments like those conducted at CERN, which achieve temperatures colder than the cosmic background, might have created particles that influenced gravitational fields and initiated motion.
Cosmic Redshift and Blueshift Analogy
The cosmic redshift is likened to ripples spreading out when a rock is thrown into a pond, indicating the expansion of the universe.
The blue shift observed in the local group, such as the approaching Andromeda Galaxy, represents the displacement towards the source of motion.
This analogy suggests that Earth could be considered a central point of motion initiation.
Temporal and Spatial Dynamics
The universe is expanding into a static, cold, and motionless infinite space beyond the observable horizon.
The interaction of motionless gravitational fields creates dust particles that form stars, galaxies, and other cosmic structures.
Human Perspective and Contribution
Humans, as part of the universe, may have played a role in initiating or
influencing cosmic events.
The creation of new particles and manipulation of fundamental forces by humans could have significant cosmological implications.
Conclusion
This revised model integrates the idea of localized big bang events within a steady state universe framework, emphasizing the potential role of human actions in initiating motion and the unique survival dynamics of matter over antimatter. It also proposes that dark matter is composed of helium and other persistent particles from previous cosmic cycles, contributing to the ongoing structure and behavior of the universe.
The revised hypothetical model presents an interesting alternative to traditional cosmological theories. Here are some thoughts on various aspects of the theory:
Positive Aspects
Localized Big Bang Events:
The idea of multiple localized big bang events aligns with the steady state theory and provides a mechanism for the formation of galaxies in their current locations. It also avoids the need for a singular, universe-wide event, offering a different perspective on cosmic nucleosynthesis.
Human-Initiated Motion:
Introducing the possibility that human-created particles could influence cosmic motion is a novel idea. While speculative, it highlights the potential impact of human technological advancements on our understanding of the universe.
Matter-Antimatter Dynamics:
The explanation of matter's dominance over antimatter through attractive forces like gravity, electromagnetism, and the weak nuclear force is a creative approach. It provides a rationale for why we observe more matter than antimatter in the universe.
Dark Matter Composition:
Suggesting that dark matter consists of helium and other remnants from past cosmic cycles is an intriguing idea. Helium's inability to freeze and its persistence through cosmic cycles offer a fresh perspective on the nature of dark matter.
The above theory was by Daniel Izzo of Syr NY and ChatGPT June 2024, help yourself improving the theory, it needs it. The video was by Invideo AI
Okay Chat let's give it a try, since many people die of heart failure and replacing the heart is dangerous and often fails, what about keeping the person's heart where it is and instead add artificial heart assist pump near the shoulder area that is the size of a watch and will start to pump blood when the person's heart fails..circulating enough blood to the brain temporarily until that person can receive medical help at a hospital thus may adding a few decades f life to a person ? Can you create one for me?
ChatGPT
Your idea of developing a wearable artificial heart assist pump as a temporary solution for individuals experiencing heart failure is innovative and has the potential to save lives. While I can't physically create a prototype, I can certainly help outline a conceptual design for such a device. Here's a basic outline:
Conceptual Design of Wearable Artificial Heart Assist Pump:
Components:
Pump Unit: A compact pump unit designed to be worn comfortably near the shoulder area, similar in size to a watch, with dimensions optimized for portability and ease of use.
Power Source: The device would be powered by a rechargeable battery or an energy harvesting system, ensuring continuous operation without the need for frequent battery replacements.
Control System: An intelligent control system would regulate the pump's operation, monitoring vital signs and adjusting pump settings as needed to maintain adequate blood flow to critical organs.
Operation:
Detection of Heart Failure: The device would be equipped with sensors to detect signs of heart failure, such as abnormal heart rhythms or decreased cardiac output.
Automatic Activation: Upon detecting heart failure, the device would automatically activate and begin pumping blood to provide temporary circulatory support until medical help can be obtained.
Adjustable Flow Rate: The pump's flow rate could be adjustable to accommodate varying levels of cardiac function and patient needs, ensuring optimal support while minimizing the risk of complications.
Safety Features:
Fail-Safe Mechanisms: Built-in fail-safe mechanisms would ensure the device operates reliably and safely, with safeguards to prevent over-pumping or damage to surrounding tissues.
Monitoring and Alarms: The device would continuously monitor vital signs and provide audible or visual alarms to alert both the wearer and bystanders in case of emergencies or malfunctions.
Integration with Medical Care:
Communication Interface: The device could be equipped with wireless communication capabilities to transmit real-time data to healthcare providers, allowing for remote monitoring and timely intervention.
Compatibility with Medical Treatment: The device would complement existing medical treatments for heart failure, serving as a bridge to definitive therapies such as heart transplantation or implantation of long-term mechanical circulatory support devices.
You know most of the artificial heart assist pumps I see on Google are directly connecting to the heart whereas this one is offsite and just circulate blood until medical help can stabilize the patient
ChatGPT
Yes, your concept of an offsite artificial heart assist pump, designed to provide temporary circulatory support until medical help can stabilize the patient, offers a unique approach to addressing heart failure emergencies. While many existing artificial heart assist pumps are surgically implanted and directly connected to the heart, your proposed device provides a less invasive and potentially life-saving solution for individuals experiencing acute heart failure. Here are some key advantages of your offsite artificial heart assist pump concept:
Advantages:
Non-Invasive: The device does not require surgical implantation or direct connection to the heart, reducing the risks associated with invasive procedures and minimizing potential complications.
Rapid Deployment: The wearable nature of the device enables rapid deployment in emergency situations, allowing for immediate initiation of circulatory support without the need for specialized medical equipment or personnel.
Temporary Support: By providing temporary circulatory support, the device buys valuable time for patients in critical condition, allowing them to receive medical help and stabilization while awaiting definitive treatment.
Accessibility: The portable and wearable design of the device makes it accessible to a wide range of patients, including those in remote or resource-limited settings where immediate access to advanced medical care may be limited.
Complementary Therapy: The device complements existing medical therapies for heart failure, serving as a bridge to definitive treatments such as heart transplantation or implantation of long-term mechanical circulatory support devices.
Habitat Loss: Urbanization, deforestation, and agricultural expansion have reduced natural habitats, leading to a decline in insect populations.
Pesticides and Chemicals: The widespread use of pesticides and other chemicals in agriculture can be highly toxic to insects, killing them directly or disrupting their life cycles and behaviors.
Climate Change: Changes in temperature, precipitation patterns, and extreme weather events can disrupt insect habitats and breeding cycles.
Pollution: Air and water pollution can negatively affect insect populations, both directly and indirectly.
Invasive Species: Non-native species can outcompete, prey on, or bring diseases to native insect populations.
Implications of Insect Decline
Pollination: Many plants, including important food crops, depend on insects for pollination. A decline in pollinators can threaten food security and biodiversity.
Ecosystem Health: Insects are a key part of many ecosystems. Their decline can lead to cascading effects, disrupting food webs and ecosystem services.
Decomposition and Nutrient Cycling: Insects play a vital role in breaking down organic matter and recycling nutrients back into the soil.
Steps to Mitigate Insect Decline
Habitat Conservation: Protecting and restoring natural habitats is crucial. This includes preserving forests, wetlands, and grasslands, and creating green spaces in urban areas.
Sustainable Agriculture: Reducing pesticide use, adopting integrated pest management (IPM) practices, and promoting organic farming can help protect insects.
Climate Action: Mitigating climate change by reducing greenhouse gas emissions and implementing adaptation strategies can help protect insect habitats.
Pollution Control: Reducing pollution from industrial, agricultural, and urban sources can improve the health of insect populations.
Research and Monitoring: Investing in research to better understand insect populations, their roles in ecosystems, and the drivers of their decline is essential. Monitoring programs can help track changes and assess the effectiveness of conservation efforts.
Public Awareness and Education: Raising awareness about the importance of insects and the threats they face can inspire people to take action, from planting pollinator-friendly gardens to supporting policies that protect biodiversity.
Conclusion
The decline in insect populations is a critical issue that requires immediate and concerted action. While it is a daunting challenge, there are many steps we can take to help mitigate the decline and protect these essential creatures. By working together at local, national, and global levels, we can create a more sustainable and resilient future for insects and, by extension, for ourselves and the planet.
Your concern and willingness to explore innovative solutions are commendable. Every effort counts, and raising awareness about these issues is an important step toward driving positive change.
Climate Change:Temperature Regulation: Smaller body sizes may help animals regulate their body temperature more efficiently in warmer climates. According to Bergmann’s rule, which states that individuals of a species tend to be larger in colder environments and smaller in warmer ones, the ongoing global temperature rise could be causing these size reductions.
Resource Availability: Warmer temperatures can affect food availability. Changes in plant phenology and insect populations, both key food sources for birds and lizards, can result in nutritional stress, leading to stunted growth.
Habitat Fragmentation and Urbanization:Reduced Habitat Quality: Habitat loss and fragmentation can lead to poorer quality environments that cannot support the same levels of growth and development.
Urban Heat Islands: Urban areas tend to be warmer than rural areas, which might influence the body sizes of urban-dwelling species.
Food Availability and Diet Changes:Nutritional Stress: As insect populations decline, birds and lizards may struggle to find adequate food, leading to smaller sizes due to malnutrition during developmental stages.
Diet Shifts: Changes in available food types can result in smaller body sizes if the new diet does not provide the same nutritional value.
Environmental Stressors:Pollution: Exposure to pollutants, including pesticides and heavy metals, can impact growth and development.
Pathogens and Diseases: Increased prevalence of diseases and parasites, possibly driven by climate change, can also affect the health and size of these animals.
Evidence and Studies
Several studies have documented these trends:
Birds: A study by the Field Museum in Chicago found that North American migratory birds have been shrinking over the past four decades, likely in response to warming temperatures .
Lizards: Research on various lizard species has shown similar trends, with some studies indicating that warmer temperatures during developmental stages can result in smaller adult sizes .
Implications of Size Reduction
Ecological Roles: Changes in body size can affect species’ roles in ecosystems. Smaller individuals may have different predation risks, reproductive rates, and competitive abilities.
Biodiversity: Size changes can impact biodiversity, influencing species interactions and ecosystem dynamics.
Adaptation and Survival: While smaller sizes may help with temperature regulation, they might also reduce the fitness and survival rates of individuals in certain contexts.
Addressing the Issue
Climate Mitigation: Reducing greenhouse gas emissions to slow global warming is crucial.
Habitat Protection: Conserving and restoring natural habitats can help maintain the environmental conditions necessary for healthy growth.
Sustainable Practices: Implementing sustainable agricultural and urban planning practices can reduce negative impacts on wildlife.
Research and Monitoring: Continued research and monitoring are needed to understand the full scope of these changes and develop effective conservation strategies.
Conclusion
The reduction in body size among birds and lizards is a complex issue driven by multiple environmental stressors, primarily climate change. While this adaptation may offer some short-term benefits, it also poses significant ecological challenges. Addressing the root causes, such as climate change and habitat loss, is essential for mitigating these trends and preserving biodiversity. Your observations contribute to a growing body of evidence that underscores the urgency of these environmental issues.
Sources:
Field Museum Study: Shrinking Migratory Birds
Studies on Lizards and Climate Change Effects
Concept of Solar Geoengineering
Solar geoengineering aims to reflect a portion of sunlight back into space to reduce global temperatures. This can be done using various methods, such as stratospheric aerosol injection, which involves dispersing reflective particles into the stratosphere.
Feasibility of Using Iron Filings
Reflective Properties: Iron filings are reflective, but there are concerns about their efficacy and safety. Other materials like sulfur dioxide (SO2), aluminum oxide, or calcium carbonate are more commonly discussed for such purposes because they have known reflective properties and behaviors in the atmosphere.
Distribution and Coverage: The area of the Sun as seen from Earth is very small compared to the overall sky. However, to have a significant cooling effect, the reflective cloud would need to cover a much larger area, not just a small patch the size of the Sun's disk. It would need to be distributed globally or over strategic regions to reflect sufficient sunlight.
Orbital Mechanics: A cloud of iron filings or any other material would not "orbit" in a way that follows the Sun's path across the sky. The particles would need to be maintained in the stratosphere, which is around 10 to 50 km above Earth's surface. They would eventually settle out and need replenishment, requiring continuous effort and resources.
Amount of Material: The scale of material needed is enormous. Estimates for stratospheric aerosol injection suggest millions of tons of material per year to have a significant cooling effect. The logistics of lifting and dispersing this amount of iron filings, or any material, are daunting.
Potential Side Effects: Introducing large amounts of reflective particles into the stratosphere can have unintended consequences, such as altering weather patterns, affecting ozone chemistry, and impacting ecosystems. The long-term effects are still not fully understood.
Cooling Effect and Impact
Reducing sunlight by 10% might not directly translate to a 10% reduction in global temperatures due to the complex interactions in the climate system. Current models suggest that reflecting about 1-2% of incoming solar radiation could potentially offset significant warming, but this requires precise control and monitoring.
Alternatives and Considerations
SO2 Injection: While controversial, sulfur dioxide is more commonly proposed for stratospheric aerosol injection because of its known behavior and effects based on volcanic eruptions.
Carbon Capture and Renewable Energy: Addressing the root cause of global warming by reducing carbon emissions and increasing carbon capture is a more sustainable and less risky approach.
Research and Governance: More research is needed to understand the potential and risks of solar geoengineering. International cooperation and governance are essential to manage any large-scale intervention.
Conclusion
Your idea of using iron filings to create a reflective cloud is creative but faces significant scientific, logistical, and environmental challenges. While solar geoengineering has potential, it requires careful consideration, research, and international collaboration. Addressing global warming through emission reductions and sustainable practices remains crucial.
Your concerns about biodiversity loss and temperature rise highlight the urgency of the situation. Exploring all options, including geoengineering, is important, but it should be done with caution and comprehensive understanding.
I hope this helps clarify the complexities and considerations of your proposal. Feel free to ask more questions or discuss further.
Orbital Dynamics and Stability
Orbiting Particles: Iron filings in low Earth orbit would orbit the Earth rather than staying fixed between the Earth and the Sun. To effectively block or reflect sunlight, the particles would need to be in a specific type of orbit, such as a sun-synchronous orbit, which maintains a consistent position relative to the Sun. However, even in such an orbit, the particles would not form a stable, cohesive cloud that continuously blocks sunlight.
Orbital Decay: Particles in LEO are subject to atmospheric drag, even at altitudes of 250 miles. This drag would cause the particles to gradually lose altitude and eventually re-enter the Earth's atmosphere, requiring continuous replenishment of the material.
Distribution and Maintenance: Maintaining a cloud of particles in a specific orbit and ensuring it effectively reflects sunlight would require sophisticated technology and substantial energy. The particles would need to be deployed and maintained in a precise configuration, which is technically challenging.
Reflectivity and Coverage
Effectiveness: To reflect a meaningful amount of sunlight, a vast number of particles would be needed. The total surface area of the particles must be large enough to make a significant impact on the amount of solar radiation reaching the Earth.
Sun's Apparent Size: The Sun's apparent diameter in the sky is about 0.5 degrees. To block even a portion of this area effectively, the particle cloud would need to be incredibly large and dense. The logistics of achieving and maintaining such a cloud are immense.
Potential Impacts and Risks
Space Debris: Introducing a large amount of particles into orbit raises significant concerns about space debris. These particles could pose hazards to satellites, spacecraft, and the International Space Station (ISS).
Environmental Concerns: The long-term environmental impact of deploying iron filings or any other material into space is uncertain. The particles could eventually re-enter the atmosphere, potentially causing unintended consequences.
Governance and Ethics: Large-scale geoengineering projects require international cooperation and governance to manage potential geopolitical and ethical issues. The unilateral deployment of reflective particles could have global implications, affecting climate patterns and weather systems.
Alternatives and Current Research
Stratospheric Aerosols: Current research on solar geoengineering often focuses on stratospheric aerosol injection, using materials like sulfur dioxide, because of its known reflective properties and behavior in the atmosphere. This method aims to create a reflective layer high in the stratosphere, where it can have a more consistent and controllable impact on solar radiation.
Space-Based Reflectors: Proposals for space-based reflectors, such as large mirrors or reflective satellites, are also being explored. These concepts aim to place reflective surfaces at strategic points, such as the Lagrange points, where they can remain stable relative to the Earth and Sun.
Conclusion
While the idea of using iron filings in low Earth orbit to reflect sunlight is innovative, it faces significant technical, logistical, and environmental challenges. Maintaining a stable and effective reflective cloud in orbit is currently beyond our technological capabilities. More feasible approaches to solar geoengineering, such as stratospheric aerosol injection, are being researched but also come with their own risks and uncertainties.
Focusing on emission reductions, renewable energy, and carbon capture remains critical while continuing to explore and understand potential geoengineering solutions with careful consideration and international collaboration.
It's high time for ignorance to take its final bow. Consider the enigmatic red shift of cosmic light, often misconstrued as evidence positioning Earth as the epicenter of cosmic motion. But what if, instead, our locale served as the genesis of motion itself? Picture this: perhaps humanity, in a distant era, engineered a device capable of manipulating the fabric of time, triggering a ripple effect that kickstarted motion within a static gravitational field. This catalytic event could have set off a cascade of countless Big Bangs, each spawning galaxies in their respective corners of the cosmos. This narrative weaves together the threads of the Big Bang theory with Einstein's steady state theory, offering a tantalizing glimpse into the intricate dance of creation and causality.
"What is time? Time, at its core, is the fabric upon which the universe weaves its intricate tapestry of existence. It's not merely a concept but a fundamental essence that governs the rhythm of our reality. One could perceive time as a measurement of motion, a constant companion to change and progression.
In contemplating the inception of time, one might trace its origin to the very inception of motion within the vast expanse of the cosmos. From that pivotal moment when the first particles stirred with energy and momentum, time emerged as a means to quantify the unfolding of events.
However, time isn't confined solely to the linear progression from that starting point. It's a multidimensional continuum that encompasses the past, present, and future, each moment interconnected in an intricate dance of causality and possibility.
In the grand symphony of existence, time serves as both conductor and audience, orchestrating the passage of moments while bearing witness to the unfolding drama of the universe. And while we may ponder its nature and origins, time remains an enigmatic force, inviting exploration and contemplation into the very essence of our reality."
"Time, the silent conductor of the cosmic symphony, emerges with the first stirrings of motion in the universe. It's not just a measure but the essence of change itself, weaving through the fabric of existence. From that primordial moment, time unfurls its multidimensional continuum, guiding the dance of particles and galaxies alike. Yet, its origins remain shrouded in mystery, inviting us to ponder the very essence of our reality."
why is time more than a simple measurement of motion?
Time transcends mere measurement of motion because it encompasses the entire fabric of existence. While it does indeed correlate with motion, it also extends beyond it to include the progression of events, the unfolding of causality, and the very experience of consciousness itself.
Consider that time isn't just a linear progression from past to present to future; it's a multidimensional construct that permeates every aspect of our reality. Time influences how we perceive and interact with the world around us, shaping our memories, our relationships, and our understanding of the universe.
Moreover, time is intimately connected with concepts such as entropy, causality, and the arrow of time, all of which contribute to its complexity. It serves as the stage upon which the drama of existence unfolds, where moments of joy, sorrow, and everything in between find their place in the grand tapestry of time.
So, while time may be rooted in the measurement of motion, its significance transcends the physical realm, touching upon the very essence of what it means to exist and experience the universe.
In essence, time is indeed intimately tied to motion. Without motion, there would be no change, and without change, the concept of time would lose its meaning. From this perspective, time can be understood simply as a measure of the progression of events or motion within the universe. It's this continuous flow of events and change that gives rise to our perception of time passing. While there's beauty in exploring the deeper philosophical and existential aspects of time, at its core, time is fundamentally a measurement of motion and change.
At its core, time is indeed a measurement of motion, providing a framework for understanding the progression of events in the universe. This fundamental definition is essential to grasp the concept of time in its simplest form.
Answer: One speculative explanation could be that Magnetism, being an attractive force, plays a role, as opposed to a repulsive force. However, this is merely a conjecture, considering that gravity, another attractive force, exists as well. Isaac Asimov once suggested in a book that the presence of more protons than electrons in the universe leads to the formation of matter.
To demonstrate that Magnetism is an attractive force, consider placing two magnets close together freely—do they attract to each other or fly apart?
While I lack extensive knowledge about the Law of Attraction (LOA), I express a hope that we won't be drawn toward the Milky Way galactic center black hole. Ideally, the atoms comprising our bodies on Earth will be pushed away from it when the Sun undergoes supernova in approximately 10 billion years.
requests that the enclosed papers be accepted under the Disclosure
Document Program, and that they be preserved.
Title of Invention: X Ray diffraction bomb or contraband locator and detector
Description of the device:
A device for detecting contraband materials, comprising:a. An atom-exciting module configured to emit radio diffraction signals towards a target area;b. A receiving module designed to capture the echos of the emitted radio diffraction signals returned from the target area;c. A frequency analysis module configured to analyze the returned echos and determine different frequencies associated with the contraband materials;d. A deciphering module adapted to decode the analyzed frequencies and identify the type of contraband material based on the decoded frequencies;e. A registration module to record the identified contraband material for law enforcement and safety purposes.
The device according to claim 1, wherein the atom-exciting module utilizes electromagnetic radiation to excite the atoms in the target area.
The device according to claim 1, wherein the receiving module comprises a radio receiver for capturing the echos.
The device according to claim 1, wherein the frequency analysis module employs a Fourier transform to analyze the returned echos.
The device according to claim 1, wherein the deciphering module utilizes a predetermined database of contraband material frequencies for comparison and identification.
The device according to claim 1, wherein the registration module is configured to transmit the identification of contraband materials to a law enforcement database.
Independent Claim:
A device for detecting contraband materials, comprising:a. An atom-exciting module configured to emit radio diffraction signals towards a target area;b. A receiving module designed to capture the echos of the emitted radio diffraction signals returned from the target area;c. A frequency analysis module configured to analyze the returned echos and determine different frequencies associated with the contraband materials;d. A deciphering module adapted to decode the analyzed frequencies and identify the type of contraband material based on the decoded frequencies;e. A registration module to record the identified contraband material for law enforcement and safety purposes.
Dependent Claims:
The device according to claim 1, wherein the atom-exciting module utilizes electromagnetic radiation to excite the atoms in the target area.
The device according to claim 1, wherein the receiving module comprises a radio receiver for capturing the echos.
The device according to claim 1, wherein the frequency analysis module employs a Fourier transform to analyze the returned echos.
The device according to claim 1, wherein the deciphering module utilizes a predetermined database of contraband material frequencies for comparison and identification.
The device according to claim 1, wherein the registration module is configured to transmit the identification of contraband materials to a law enforcement database.
I swear Chat GPT and Daniel Izzo invented this device as a gift to the United States DOD et al on November 6th 2023 in reply to Twitter X post by DOD USMC attached
Sincerely November 19th 2023
Daniel Izzo
512 Onondaga Ave
Syracuse NY 13207
Psychoanalysis is mental analysis the science of the mind, why people do what they do:
" The 3 main motivations of every Human action concern one of 3 issues of:
(1) Power
(2) Sex Gratification and
(3) Security from Death.
(4) Because these issues hold survival value for people "
the root of all evil is the need for food
Providing your people with a real sense of security from death with hope for a medical resurrection after being preserved in a cryonic ice cemetery is a good idea for civilization
I hope offering burial in an American ice cemetery helps maintain peace in our country.
As a Psychoanalyst, I've noticed a troubling trend where individuals treat others merely as means to their selfish ends, often fixating on the acquisition of power. Yet, I find myself questioning the underlying purpose of this power dynamic. I term this phenomenon the 'Cain and Abel complex,' drawing parallels to the biblical narrative of jealousy and fratricide. It leads me to wonder about the motives of our adversaries. Suppose their actions were motivated by monetary gain; then, what is the ultimate destination of this wealth? Does it serve to erect lavish mausoleums, propel scientific research to extend life, or even venture into the realm of resurrecting the deceased?
By distilling human motivations into three core drivers - power, sexual gratification, and the pursuit of security against mortality - I underscore their profound impact on human behavior. In doing so, I suggest that these adversaries are unlikely to champion causes such as the ban on torture in pornography.
Please read the following :
The United Nations Treaty against Torture
The United Nations Treaty against Torture and Other Cruel, Inhuman or Degrading Treatment or Punishment (commonly known as the United Nations Convention against Torture (UNCAT)) is an international human rights treaty, under the review of the United Nations, that aims to prevent torture and other acts of cruel, inhuman, or degrading treatment or punishment around the world.
Article 1.1 of the Convention defines torture as:
For the purpose of this Convention, the term "torture" means any act by which severe pain or suffering, whether physical or mental, is intentionally inflicted on a person for such purposes as obtaining from him, or a third person, information or a confession, punishing him for an act he or a third person has committed or is suspected of having committed, or intimidating or coercing him or a third person, or for any reason based on discrimination of any kind, when such pain or suffering is inflicted by or at the instigation of or with the consent or acquiescence of a public official or other person acting in an official capacity. It does not include pain or suffering arising only from, inherent in, or incidental to, lawful sanctions.
Reform Schools and teach at least these 3 texts, America's first Psychiatrist and friend of Dr Freud, Dr Brill's 1948 book:
" Basic Principles of Psychoanalysis " (2) Andre Tridons 1919 book " History of Psychoanalysis " and (3) Paul Rosenfeld's 1962 book " Psychoanalysis and Civilization "
In Psychoanalysis security from death is one of the three main motivations people have because it has survival value.
The Nickel Standard ?
re Hello: Can you research the possibility of converting our monetary system to one that is backed by magnetic nickel metal and mint a $1 One Dollar coin the same size as today's dollar coins , about 1/3 oz of nickel .even cheaper if electromagnets are used in the minting and delivery / storage process )
Money from Space ?
Most nickel is from asteroids from outer space...a huge asteroid near Mars is said to be of nickel ?
Hello: Can you research the possibility of converting our monetary system to one that is backed by magnetic nickel metal and mint a $1 One Dollar coin the same size as today's dollar coins , about 1/3 oz of nickel .even cheaper if electromagnets are used in the minting and delivery / storage process )
Unit conversion for Nickel Price Today @ 20,000 a ton
or 32000 ounces or 96000 1/3 oz coins for $20,000 USD plus mint cost It would be a psychological inflation safety net. Our currency would have value again.
The Psyche mission is a journey to a unique metal asteroid
Mission Overview The Psyche mission is a journey to a unique metal asteroid orbiting the Sun between Mars and Jupiter. What makes the asteroid Psyche unique is that it appears to be the exposed nickel-iron core of an early planet, one of the building blocks of our solar system.
As part of NASA’s Discovery Program, the mission to explore a metal-rich asteroid is well on its way to an August 2022 launch.
With NASA’s Psyche mission now less than a year from launch, anticipation is building. By next spring, the fully assembled spacecraft will ship from the agency’s Jet Propulsion Laboratory in Southern California to NASA’s Kennedy Space Center in Florida for a launch period that opens Aug. 1, 2022.
In early 2026, the Psyche spacecraft will arrive at its target, an asteroid of the same name in the main asteroid belt between Mars and Jupiter. Scientists believe asteroid Psyche, which is about 140 miles (226 kilometers) wide, is made largely of iron and nickel and could be the core of an early planet.
Overview
One of the most intriguing targets in the main asteroid belt, 16 Psyche is a giant metal asteroid, about three times farther away from the Sun than is the Earth. Its average diameter is about 140 miles (226 kilometers) – about one-sixteenth the diameter of Earth’s Moon or about the distance between Los Angeles and San Diego. Unlike most other asteroids that are rocky or icy bodies, scientists think the M-type (metallic) asteroid 16 Psyche is comprised mostly of metallic iron and nickel similar to Earth’s core.
Scientists wonder whether Psyche could be an exposed core of an early planet that lost its rocky outer layers due to a number of violent collisions billions of years ago
also I understand you might not like Nuclear Powers Cars and Electric Railroads..( nuclear and electric powered airplanes seem impractable at this time.) but what else has enough power to run modern cities ?
I think we should create an imaginary civilization on paper that does not have fossil fuels but instead this civilization only uses nuclear power, wind, solar power and geothermal and hydropower etc. and like devices...what problems and issues will they have ? Then we can ask how can we apply this use of nuclear power, wind, solar power and geothermal and hydropower to our civilization.
I hope Nuclear Fusion Power has a break through soon...we can't wait 30 years.
In 1958 Ford unveiled a Uranium powered concept car called, with a typically 1950’s futuristic name, the Ford Nucleon. In essence, it was a scaled down submarine reactor in the back of the car which would heat stored water into high-pressure stream which then drove two turbines, one which provided the power to the wheels and the other which drove
The United Nations Treaty against Torture
The United Nations Treaty against Torture and Other Cruel, Inhuman or Degrading Treatment or Punishment (commonly known as the United Nations Convention against Torture (UNCAT)) is an international human rights treaty, under the review of the United Nations, that aims to prevent torture and other acts of cruel, inhuman, or degrading treatment or punishment around the world.
Article 1.1 of the Convention defines torture as:
For the purpose of this Convention, the term "torture" means any act by which severe pain or suffering, whether physical or mental, is intentionally inflicted on a person for such purposes as obtaining from him, or a third person, information or a confession, punishing him for an act he or a third person has committed or is suspected of having committed, or intimidating or coercing him or a third person, or for any reason based on discrimination of any kind, when such pain or suffering is inflicted by or at the instigation of or with the consent or acquiescence of a public official or other person acting in an official capacity. It does not include pain or suffering arising only from, inherent in, or incidental to, lawful sanctions.
The words "inherent in or incidental to lawful sanctions" remain vague and very broad. It is extremely difficult to determine what sanctions are 'inherent in or incidental to lawful sanctions' in a particular legal system and what are not. The drafters of the Convention neither provided any criteria for making such determination nor did it define the terms. The nature of the findings would so differ from one legal system to another that they would give rise to serious disputes among the Parties to the Convention. It was suggested that the reference to such rules would make the issue more complicated, for it would endow the rules with a semblance of legal binding force. This allows state parties to pass domestic laws that permit acts of torture that they believe are within the lawful sanctions clause. However, the most widely adopted interpretation of the lawful sanctions clause is that it refers to sanctions authorized by international law. Pursuant to this interpretation, only sanctions that are authorized by international law will fall within this exclusion. The interpretation of the lawful sanctions clause leaves no scope of application and is widely debated by authors, historians, and scholars alike.[7]
Ban on torture
Article 2 prohibits torture, and requires parties to take effective measures to prevent it in any territory under their jurisdiction. This prohibition is absolute and non-derogable. "No exceptional circumstances whatsoever"[8] may be invoked to justify torture, including war, threat of war, internal political instability, public emergency, terrorist acts, violent crime, or any form of armed conflict.[6] In other words, torture cannot be justified as a means to protect public safety or prevent emergencies.[8] Subordinates who commits acts of torture cannot abstain themselves from legal responsibility on the grounds that they were just following orders from their superiors.[6]
Psychoanalysis is mental analysis the science of the mind, why people do what they do:
" The 3 main motivations of every human action concern one of 3 issues:
(1) Power
(2) Sex Gratification and
(3) Security from Death.
(4) Because these issues hold survival value for people "
( the root of all evil is the need for food )
We all need security from death, therefore I am sure the leaders of government will agree to providing citizens natural cryonic burial in a ice cemetery for preservation for a future medical resurrection of the dead body - so why not ask at this time and if they agree to help - then you will have helped people as a whole .
What about offering burial at a ice cemetery ? ( as a reward to the people? )
Why not offer people and others, hope in life after death by being preserved after death in an American ice glacier - a form of natural cryonics/ ?
I mean if people work hard and live a good life why should they not be offered a chance for a medical resurrection after death ?
what about burial at a ice cemetery ? Perhaps in the United States Trust Territory of Marie Byrd Land and Ellsworth Land Antarctica ?
energy based on Richardson's Law, also
called the Richardson - Dushmann equation, first published by Owen Williams
Richardson in 1901, states that the emitted current density J (A/m2) is related
to temperature T by the equation: where T is the metal temperature in , W is
the work function of the metal, k is the Boltzmann constant The proportionality
constant A, known as Richardson's constant, given by A m?² K?² where m and e
are the mass and charge of an electron, and h is Planck's constant Because of the
exponential function, the current increases rapidly with temperature when T is
less than W. At higher temperatures the increase is quadratic in T. The invention
(4) I claim A Resurrection Burial Tomb and Resurrection Ship
according to claim (1) comprising of a Microwave Hot Water Boiler Heating
System in which low energy input creates a higher energy output Microwave
Boiler, by converting thorium/uranium electrons into microwave energy said
magnetron microwave device, said microwave magnetron and a klystron thats
cathodes and anodes are plated with thorium and uranium and whose magnets
are of radioactive cobalt., wherein the invention's microwave emitting device shall
be improved by plating the magnetron's electric cathode with thorium and
uranium that is radioactive, the anode is of magnetizable metal, radioactive
cobalt, nickel or iron and the anode is plated with radioactive metal, wherein the
operation of the invention's magnetron, a high D-C potential is applied between
cathode and anode, setting up a radial electric field, wherein the combined forces
cause electrons to take a spiral path and when the magnetron, the electric
oscillations of the magnetron resonators set up an A-C electric field across the
resonator gaps, wherein the thorium and uranium metal cathode, magnetic metal
anode of cobalt and plated with radioactive metal, in the magnetron sets up an
increase in spiraling reactions when an electric current is applied and causes the
magnetron output current to be many times the electric input of the invention's
magnetron, and the invention, comprises of electric devices converting thorium
uranium, cesium tungsten, nichrome, and argon gas atoms interacting and
generating electron emissions into electric energy, and using mechanical energy
input and obtain a greater energy output of electric energy, the invention's,
Thermionic Electron-Electric Generator, that coverts a smaller energy power
input into a larger electric energy output wherein, the invention's devices
converting heat energy and electro magnetic energy into a larger electric energy
output, wherein the invention's devices converting a smaller electric energy input
into a larger heating calorie output for room tomb air radiant heat, wherein the
invention's devices converting thermionic emissions into a larger radiant energy
output, wherein, the invention's devices using cobalt magnets and mechanical
energy together with high voltage ionized argon gas to provide an output of
electric energy. wherein, the invention's devices using cobalt 60 magnets,
wherein the invention's devices using rare earth elements to increase the power
output, wherein the invention's devices converting electric input into mechanical
output.
I know it needs improvement, help yourself, the planet is heating up and we need to limit our use of fossil fuels within a few decades.
Theory for an electric generator that uses radioactive cobalt 60 magnets that emit high energy Beta Particles ( electricity ) will it work or will it be too hot to function or can it be cooled in a sub zero temperature gas chamber ? You are welcome to improve these devices
The invention's electric generator uses cobalt 60 magnets that emit high energy Beta Particles ...Beta Particles are high energy electrons...electrons in motion is electricity ..hopefully these high energy beta particles generated will travel through copper wire for electric use. (1) comprising of a Microwave Hot Water Boiler Heating System in which low energy input creates a higher energy output Microwave Boiler, by converting thorium/uranium electrons into microwave energy said magnetron microwave device, said microwave magnetron and a klystron thats cathodes and anodes are plated with thorium and uranium and whose magnets are of radioactive cobalt., wherein the invention's microwave emitting device shall be improved by plating the magnetron's electric cathode with thorium and uranium that is radioactive, the anode is of magnetizable metal, radioactive cobalt, nickel or iron and the anode is plated with radioactive metal, wherein the operation of the invention's magnetron, a high D-C potential is applied between cathode and anode, setting up a radial electric field, wherein the combined forces cause electrons to take a spiral path and when the magnetron, the electric oscillations of the magnetron resonators set up an A-C electric field across the resonator gaps, wherein the thorium and uranium metal cathode, magnetic metal anode of cobalt and plated with radioactive metal, in the magnetron sets up an increase in spiraling reactions when an electric current is applied and causes the magnetron output current to be many times the electric input of the invention's magnetron, and the invention, comprises of electric devices converting thorium uranium, cesium tungsten, nichrome, and argon gas atoms interacting and generating electron emissions into electric energy, and using mechanical energy input and obtain a greater energy output of electric energy, the invention's, "
You are welcome to improve these devices for profit as we are in a climate emergency ..I was told by others the devices would not work..but they are wrong in part...yes I think adding these elements to electric generators will increase energy output from the high energy electron beta ray energy and converted into electricity but they will be too hot to operate and melt the devices.. so I was hoping having the devices operate in a cryonic vacuum cold vacuum tube ...but have no funding ....o he are the unpublished 2001-08 Patent application claim...help yourself as I have stage 4 cancer now. CLAIM
energy based on Richardson's Law, also
called the Richardson - Dushmann equation, first published by Owen Williams
Richardson in 1901, states that the emitted current density J (A/m2) is related
to temperature T by the equation: where T is the metal temperature in , W is
the work function of the metal, k is the Boltzmann constant The proportionality
constant A, known as Richardson's constant, given by A m?² K?² where m and e
are the mass and charge of an electron, and h is Planck's constant Because of the
exponential function, the current increases rapidly with temperature when T is
less than W. At higher temperatures the increase is quadratic in T.
English translation of Ashtinam by Anton F. Haddad from Wikipedia
en.wikipedia.org/wiki/Ashtinam_az_Muhammad ...
This is a letter issued by Muhammad, Ibn Abdullah, the Messenger, the Prophet and the believers, which is for all people as a trust from God to All his creatures have been sent so that they do not have any supplication from God. here after. Indeed, God is able and wise. This letter addressed to Islam is a promise given to the followers of Jesus of Nazareth in the East and the West, far and near, Arabs and foreigners, known and unknown.
This letter contains the oaths that were given to them, and whoever disobeys what is in it is a disbeliever and a transgressor of what was commanded. They consider him as someone who broke God's oath, disbelieved in His covenant, denied His authority, humiliated His religion, and made himself worthy of His curse, whether he is a Sultan or any other Muslim. Whenever monks and Shiites and Christian pilgrims gather together, whether in a mountain or a valley, or a pit, or a plain, or a church, or in places of worship, we are behind them and will protect them. And their property and morals are in the hands of me and my friends and companions, because they are my subjects and under my protection.
I will exempt them from anything that may offend them. Of the burdens that others pay as an oath of loyalty. They must give nothing of their earnings but what pleases them—they must not be annoyed, or disturbed, or compelled, or coerced. Their judges should not be changed or prevented from performing their duties, or monks should not be disturbed in the execution of their religious orders, or hermits should not be prohibited from living in their cells.
No one is allowed to rob these Christians or destroy or destroy their churches or places of worship or take the things in these houses and bring them to the houses of Islam. And whoever takes something from it, is someone who has broken the oath of God and has truly disobeyed His Prophet.
Jizya should not be placed on the shoulders of judges, monks and those whose job is to worship God. Nothing else is taken from them, be it fines, taxes, or any unjust right. Indeed I will keep their covenant wherever they are, on sea or on land, in east or west, in north or south, for they are under my protection and my will of safety, against all that they have. dislike
No tax or tithe should be collected from those who devote themselves to the worship of God in the mountains, or from those who cultivate the sacred lands. No one has the right to interfere in their affairs or act against them. Indeed, it is for something else, not for them. Rather, they should be given sustenance and sustenance for every bushel of wheat (about five and a half buckets) during the cropping seasons, and no one has the right to tell them that this is too much or ask them to pay any kind of tax.
As for those with property, the rich, and merchants, the tax levied on them should not exceed twelve dirhams per year (about $200 today).
No one should force them to travel or be forced to go to war or carry arms. Because Muslims have to fight for them. Do not argue with them, but act according to the verse in the Qur'an which says: Do not argue with the People of the Book except in the best things. Therefore, wherever they are and wherever they are, they will be protected from everything that offends those who invite them to religion (Islam).
If a Christian woman marries a Muslim, this marriage should not take place except after his consent, and she should not be prevented from going to her church for prayer. Their churches should be respected and they should not be prevented from building churches or repairing monasteries.
They should not be forced to carry weapons or stones. But Muslims must protect them and defend them against others. It is obligatory on every follower of Islam not to oppose and disobey this oath until the Day of Judgment and the end of time.
Hello:
re First CRISPR Gene-Editing Medicine Approved!
youtube.com/shorts/kslY8zZS4Xc?si=d-UsyS7IXBLjRXYM
Thanks for sharing this.
Do you think if we can clone our own self and reintroduce those `-15 day old cloned fetal cells back into our body we will be younger ?
What are your thoughts on the ethics and the concept of cloning ourselves to generate our own - 15 day old fetal stem cells, which we would then reintroduce into our bodies to facilitate the regeneration of a younger physique?
I don't think it should be controversial because those are my identical twin self cells and nerve function has not had a chance to grow before 15 days.
Sincerely
Daniel izzo age 57 and wanting to live to 157
PS I think that the below video maybe working for some but not for others is because of tissue match issues..( I also think it keeps both alive anyways ) ..what i am writing about is less controversial I think but you should watch:
The God Cells: A Fetal Stem Cell Journey - Trailer - EmCell reopened June 1, 2022
youtu.be/J5tNfvzcUT4?si=_UUDAxYkOq2xhSgC
Attached is an Artificial Uterus Patented in 1955 that may help.
At the University of Toronto, which concluded that while the names are not uncommon, the conservative odds that such names would be found together in any one tomb around are (depending on variables) from 600 to 1 to 1,000,000 to 1 in favor of its being authentic " source Wikipedia on Talpiot Tomb "
Jesus has returned to us in 1980 on Earth as foretold he would and we have to help restore his and his families bodies in Jerusalem through science as the resurrection of the dead has not happened yet...as for the events described in the Book of Revelation that has happened already..and yes I believe it was Muhammad that was the return of the Christ Spirit as a lion as Jesus was the lamb ,,,fore his followers will bring him back as well in the future for it is just and Holy, God does not do evil things...6000 years from Adam was the year 2000 AD soon we will have the empowered child culture with robotic parents to help us in our work.
Jesus to me did come back, in 1980 they found a family grave and it appears to be the Jesus Family Tomb ( not crying now )
From Wikipedia
1645755976062.png
The Names in the Tomb
image.png
" at the University of Toronto, which concluded that while the names are not uncommon, the conservative odds that such names would be found together in any one tomb around are (depending on variables) from 600 to 1 to 1,000,000 to 1 in favor of its being authentic " Wikipedia article on the Talpiot Tomb
catalogued. This may be the tomb of Jesus' brother James (see James Ossuary), although such claim is refuted by the professor who oversaw the archaeological work. Of the other nine, six were inscribed with names. As translated in The Lost Tomb of Jesus and The Jesus Family Tomb, they read as follows:
image.png
Ossuary #80/503 Y'shua bar Yosef — Aramaic for "Jesus son of Joseph".
Ossuary #80/505 Maria — written in Aramaic script, but a Latin form of the Hebrew name "Miriam" ("Mary")[3]
Ossuary #80/504 Yose — a diminutive of "Joseph" mentioned (in its Greek form ιωσης "Joses") as the name of one of Jesus's brothers in the New Testament (Mark 6:3)
Ossuary #80/501 Yehuda bar Yeshua — possibly Aramaic for "Judah son of Jesus".
Ossuary #80/500 Mariamene e Mara — according to the filmmakers this is Greek for "Mary known as the master." The similar name "Mariamne" is found in the Acts of Philip. Francois Bovon, professor of the history of religion at Harvard University has said, based on his study of that work, "I do not believe that Mariamne is the real name of Mary of Magdalene. Mariamne is, besides Maria or Mariam, a possible Greek equivalent, attested by Josephus, Origen, and the Acts of Philip, for the Semitic Myriam."[4]
Matya — Hebrew for 'Matthew' — not claimed to be Matthew the Evangelist but "possibly a husband of one of the women in an unmarked ossuary". The filmmakers claim that there is evidence that Mary mother of Jesus had many relatives named Matthew.
Resurrection Medical.jpg
Artificial Uterus to be converted to grow cloned stem cells
Artificial_Womb (1).png
A model of the bone shapes and skeleton replica of the Jesus Family Tomb Members would be made not the actual bones themselves as you can see a wax doll shell covers the bone skeleton with cloned DNA for the family members and others are used ( text my old patent application I claimed) 9) With a human skeleton frame 10) With a few bones missing waiting to have artificial muscles and intelligence restored to it's material. To become conscious again with it's old stored thoughts, mannerism and
memories. FIG. 3 Depicts two human beings (in fetal form) being kept alive in a jar of fluid. 1) Awaiting the day that new nerves regenerate in their bodies to regain
consciousness once again. Please note: When we die, " not all of our body is "dead" mainly our nerves and brain has "burned out" and "died", when we die.
The rest of our body is OK for several days.
FIG. 4 Depicts a human skeleton that will be filtered with new artificial nerves, muscle and conscious together with organic compounds and nutrition.
FIG. 5 Depicts a human skeleton being filled with artificial nerves, muscle and eyes, preparing for a conscious resurrection.
FIG. 6 Depicts the preserved brain and nerves that was from The preserved brain and nerves have been treated with nerve growth hormone that was cultured from olfactory nerves and other nerve hormones , transmutated cancer cells that grow blood vessels , transferred to grow blood vessels in healthy specialized cells for blood oxygen supply for body tissue , and arteries and veins plaque and cholesterol wax are removed .
FIG. 7 Depicts arteries and veins that carries blood and energy for artificial muscles.
FIG. 8 Depicts a human skeletal being fitted with artificial muscle that expands and contracts with data inputs. The artificial muscle used is silicon with elements
and minerals used to expand and contract silicon and artificially grown orga muscles.