Recent content by Jarrodmccarthy

I Have a question about how we arrive at the probabilities for the wavefunction collapsing to some specific value for an observable. As far as I'm aware, the wavefunction is a superposition of possible states depending on the observable we try to measure. Lets say I want to measure observable...

I think those resistances are different so there would be a potential difference giving preference to one MOSFET or the other.

I guessed they were transistors so thanks for specifying MOSFE. Seems like Svein said a more sophisticated version of what I said to me.

I'm not familiar with the symbols but they might be transistors. In that case the transistors could be used to cut the DC voltage to make a time varying voltage. If the transistors were capable of switching pretty frequently it may resemble a regular AC circuits characteristics.

Thank you very much. All of what you said made sense so thank you.

If the signal isn't time varying there will be no oscillation.

"resonance" is achieved when the inductive and Capacative reactance's are equal in magnitude. What does this mean physically? It means that if you apply a time-varying voltage that has a frequency equal to the resonant frequency of the circuit, the energy you give the circuit by applying the...

I have just recently started learning about quantum contextuality and can only seem to find examples where contextuality is need to explain measurements of spin. So I am curious as to whether quantum contextuality only applies to measurements of spin? Also, If someone could clarify where the...