Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
4 Cards in this Set
- Front
- Back
What is Hamiltonian? |
Hamiltonian ( Ĥ) is the list of possible outcomes when one measures the total energy ot a system. |
|
What is heisenburgs uncertainty principle? |
Δp=h/λΔp=h/λΔx=λ. Where P=particle momentum, x=position of the particle. λ=the wave length. And h=plancks constant. |
|
Time dependant schrodinger equation (general) |
where $V$ is assumed to be a real function and represents the potential energy of the system (a complex function $V$ will act as a source or sink for probability, as shown in Merzbacher [2], problem 4.1). Wave Mechanics is the branch of quantum mechanics with equation (21) as its dynamical law. Note that equation (21) does not yet account for spin or relativistic effects.Of course the time-dependent equation can be used to derive the time-independent equation. If we write the wavefunction as a product of spatial and temporal terms |
|
Schrodinger equation |
An equation showing the change in a wave function over time wave function over time |