Can Constant Observable Expectations Be Accurately Measured in a Lab Setting?

  • Thread starter Thread starter shishir
  • Start date Start date
  • Tags Tags
    Expectation
shishir
Messages
2
Reaction score
0
If the expectation of some observable is constant then can it be measured at Lab.
 
Physics news on Phys.org
You mean, can we measure something called the "expectation value"? Or do you mean can we measure the observable?

For the first one, we can only measure many identically prepared particles and see the "average" value as the "expectation" value. For the second one, of course we can...for that is the definition of an observable...
 
The thing to keep in mind is that the expectation value is just an average value. Sometimes it will correspond to an actual eigenstate (observed value) in your system and sometimes it won't. Take an electron's spin for example. When you measure, you might get a spin value of +1/2 or -1/2. Since there is an equal probability of each being observed, your expectation value of the spin will be 0. However when you actually perform an experiment to measure the electron's spin you'll never get a value of 0 because that isn't an actual allowed value...even though its the average. The expectation value can change with time or it can be a constant. It just depends on the nature of the system that you're observing. In the case of electron spin it is both a constant and not an observed value.
 

Thread 'Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. In her YouTube video Bell’s Theorem Experiments on Entangled Photons, Dr. Fugate shows how polarization-entangled photons violate Bell’s inequality. In this Insight, I will use quantum information theory to explain why such entangled photon-polarization qubits violate the version of Bell’s inequality due to John Clauser, Michael Horne, Abner Shimony, and Richard Holt known as the...
View full post »

Thread 'Schrödinger equation and classical wave equation'

Not an expert in QM. AFAIK, Schrödinger's equation is quite different from the classical wave equation. The former is an equation for the dynamics of the state of a (quantum?) system, the latter is an equation for the dynamics of a (classical) degree of freedom. As a matter of fact, Schrödinger's equation is first order in time derivatives, while the classical wave equation is second order. But, AFAIK, Schrödinger's equation is a wave equation; only its interpretation makes it non-classical...
View full post »

Thread 'How strong is the justification for low probability extreme thermal fluctuations?'

I asked a question related to a table levitating but I am going to try to be specific about my question after one of the forum mentors stated I should make my question more specific (although I'm still not sure why one couldn't have asked if a table levitating is possible according to physics). Specifically, I am interested in knowing how much justification we have for an extreme low probability thermal fluctuation that results in a "miraculous" event compared to, say, a dice roll. Does a...
View full post »

Similar threads

I Can We Accurately Measure Momentum in the Lab?
Replies
20
Views
2K
B A stupidly basic question about expectation value
Replies
8
Views
2K
I Spin expectation value for one particle vs actual measurement
Replies
4
Views
1K
I Expectation value of the momentum for an electron in a box
Replies
3
Views
1K
I The Extended Wigner's Friend Scenarios
Replies
42
Views
2K
I Please help me understand the double slit experiment and conclusion
2
Replies
65
Views
3K
A QFT with vanishing vacuum expectation value and perturbation theory
Replies
3
Views
2K
I How to enter measurement results into Bell inequality?
Replies
17
Views
2K
I Expectation of an operator (observable) how to calculate it
Replies
11
Views
3K
B Can entangled electrons in helium be observed and measured in practice?
Replies
10
Views
2K

Hot Threads

Recent Insights

Back
Top