Tibees | STUDY WITH ME | Quantum Measurement & Observables @tibees | Uploaded 6 years ago | Updated 17 hours ago
Follow along with this Quantum Objects course at brilliant.org/tibees
The important ideas that I discuss:
1. At the limit of many quantum measurements, the average will always approach the classical result, even if individual experiments appear to violate the classical law. This is called the classical limit.
2. Quantum measurements are not as gentle as classical measurements. Sometimes measuring a quantum state can change the state for all future measurements.
3. Observers can change the state of quantum objects. Quantum states are reset by observation itself, though the point in the experiment when this occurs is still the subject of active debate.
Previous episodes:
Math for quantum physics: youtube.com/watch?v=laxvZZb9uhU&t=512s
Quantum probabilities: youtube.com/watch?v=z4gR17YF8rE&t=463s
Please subscribe ❤ https://www.youtube.com/user/tibees?s...
Twitter: twitter.com/TobyHendy
#QuantumPhysics
Follow along with this Quantum Objects course at brilliant.org/tibees
The important ideas that I discuss:
1. At the limit of many quantum measurements, the average will always approach the classical result, even if individual experiments appear to violate the classical law. This is called the classical limit.
2. Quantum measurements are not as gentle as classical measurements. Sometimes measuring a quantum state can change the state for all future measurements.
3. Observers can change the state of quantum objects. Quantum states are reset by observation itself, though the point in the experiment when this occurs is still the subject of active debate.
Previous episodes:
Math for quantum physics: youtube.com/watch?v=laxvZZb9uhU&t=512s
Quantum probabilities: youtube.com/watch?v=z4gR17YF8rE&t=463s
Please subscribe ❤ https://www.youtube.com/user/tibees?s...
Twitter: twitter.com/TobyHendy
#QuantumPhysics
