why can't we find a separable solution to the time dependent schrodinger equation if the Hamiltonian...

If Ψ1 is a solution to time-dependent Schrodinger equation and Ψ2 is a solution to the...

If Ψ1 is a solution to time-dependent Schrodinger equation and Ψ2 is a solution to the time dependent Schrodinger equation, then show that[aΨ1+ bΨ2] is also a solution to the time-dependent Schrodinger equation, with a and b arbitrary complex numbers.

As you know, in the Schrodinger representation, the wavefunction is time-dependent while the operator is time-independent....

As you know, in the Schrodinger representation, the wavefunction is time-dependent while the operator is time-independent. In the Heisenberg representation, the wavefunction is time-independent while the operator is generally time-dependent. However, only the Hamiltonian is time-independent in both representations of Schrodinger and Heisenberg. Why? Describe the reason for that clearly.

Write down the time-independent Schrodinger equation and evaluate the corresponding solution for a free electron.

Write down the time-independent Schrodinger equation and evaluate the corresponding solution for a free electron.

Find the solution to the separable differential equation dy = x cos2 y + sin x...

Find the solution to the separable differential equation dy = x cos2 y + sin x cos2 y satisfying π dx the initial condition y = 4 when x = π.

(1 point) Solve the separable differential equation ?′(?)=√(4y(x)+32), and find the particular solution satisfying the initial...

(1 point) Solve the separable differential equation ?′(?)=√(4y(x)+32), and find the particular solution satisfying the initial condition ?(1)=−4. ?(?)=__________.

Show for stationary eigenstates of the Schrodinger equation in one dimension. Qualitatively explain why the eigenfunction...

Show for stationary eigenstates of the Schrodinger equation in one dimension. Qualitatively explain why the eigenfunction ψ(x) is smooth, i.e., its first derivative dψ/dx is continuous, even when the potential V (x) has a discontinuity (a finite jump). Hints: use the delta function

Consider the first order separable equation y′=12x^3y(1+2x^4)^1/2. An implicit general solution can be written in the...

Consider the first order separable equation y′=12x^3y(1+2x^4)^1/2. An implicit general solution can be written in the form y=Cf(x) for some function f(x) with C an arbitrary constant. Here f(x)= Next find the explicit solution of the initial value problem y(0)=1 y=

Notice that ?y/?x = (3y+2x)/(x+y) is not separable. However, we can solve the equation with the...

Notice that ?y/?x = (3y+2x)/(x+y) is not separable. However, we can solve the equation with the following steps. a. Define a new variable z=y/x and express ?y/?x in terms of only ? and ?z/?x

Find the general solution for this differential equation, ?′′ + 7?′ + 10? = ?? −3?...

Find the general solution for this differential equation, ?′′ + 7?′ + 10? = ?? −3? where ? is the dependent variable which is a function of the independent variable ?

Find the solution of y ′ = (y/x)^2, y(1) = 1 Check that the equation is...

Find the solution of y ′ = (y/x)^2, y(1) = 1 Check that the equation is of all of the following types: (a) Separable (b) Exact (c) Homogeneous (d) Bernoulli Derive the solution by using each of these methods.