EquisDeXD Posted October 3, 2012 Posted October 3, 2012 So I have one particle in a state of superposition, and two observers measure it simultaneously (somehow), would they both observe the same location?
Ronald Hyde Posted October 3, 2012 Posted October 3, 2012 So I have one particle in a state of superposition, and two observers measure it simultaneously (somehow), would they both observe the same location? They're not allowed to both measure the state. Whichever one manages to measure it first destroys the information for the other.
EquisDeXD Posted October 3, 2012 Author Posted October 3, 2012 So I guess they would both measure the same result since the location is a "function" of the probability wave?
Ronald Hyde Posted October 3, 2012 Posted October 3, 2012 Well, they could both employ a 'third party' to perform the measurement, an instrument. When the instrument makes the measurement an entropy change in the instrument will occur and can be observed by both of our 'observers', but that is not the same as your original question.
swansont Posted October 3, 2012 Posted October 3, 2012 Once someone has done the measurement of a system in a superposition, the system will be in an eigenstate. Absent subsequent interactions, that same measurement has to yield the same result.
EquisDeXD Posted October 6, 2012 Author Posted October 6, 2012 Once someone has done the measurement of a system in a superposition, the system will be in an eigenstate. Absent subsequent interactions, that same measurement has to yield the same result. But what about relativity? What if the two are accelerating away from the atom at the same speed and started from the same position, but then to a stationary object it happens to appear a little to the left of the nucleus making a small difference in the actual distance between the people accelerating away?
swansont Posted October 7, 2012 Posted October 7, 2012 But what about relativity? What if the two are accelerating away from the atom at the same speed and started from the same position, but then to a stationary object it happens to appear a little to the left of the nucleus making a small difference in the actual distance between the people accelerating away? I don't understand the scenario you describe.
EquisDeXD Posted October 7, 2012 Author Posted October 7, 2012 I don't understand the scenario you describe. I'm essentially saying, what about relativity?
swansont Posted October 7, 2012 Posted October 7, 2012 I'm essentially saying, what about relativity? What about it? It's not going to change an eigenstate.
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now