Question

A: D: E 0.327 nm $E_1$ II $U_{II}$ $U(x)$ B: C: Fig. 1(a) 2 nm (b) I $U_I$ Fig. 2 Q2. (15 pts) For the potential shown in Fig. 2. Assume that an electron with energy $E_1$ is incident from the left. (a) Write the wave solutions that apply in Region I and II. (5 pts) (b) Develop an expression for the wavelength of electrons in Region I in terms of the energy, $E_1$, of the electron and the potential energy in Region I, $U_I$. (2.5 pts) (c) Develop an expression for the wavelength of electrons in Region II in terms of the energy, $E_1$, of the electron and the potential energy in Region II, $U_{II}$. (2.5 pts) (d) Sketch the expected form of the solution for $\psi(x)$. (You may sketch it on the plot above, but explain it) (5 pts)

          A:
D:
E
0.327 nm
$E_1$
II $U_{II}$
$U(x)$
B:
C:
Fig. 1(a)
2 nm (b)
I $U_I$
Fig. 2
Q2. (15 pts)
For the potential shown in Fig. 2. Assume that an electron with energy $E_1$ is incident from the left.
(a) Write the wave solutions that apply in Region I and II. (5 pts)
(b) Develop an expression for the wavelength of electrons in Region I in terms of the energy, $E_1$, of the electron and the potential
energy in Region I, $U_I$. (2.5 pts)
(c) Develop an expression for the wavelength of electrons in Region II in terms of the energy, $E_1$, of the electron and the potential
energy in Region II, $U_{II}$. (2.5 pts)
(d) Sketch the expected form of the solution for $\psi(x)$. (You may sketch it on the plot above, but explain it) (5 pts)

Show more…

a d e 0327 nm e1 ii uii ux b c fig 1a 2 nm b i ui fig 2 q2 15 pts for the potential shown in fig 2 assume that an electron with energy e1 is incident from the left a write the wave solut 18401

Added by Catherine G.

University Physics with Modern Physics

Hugh D. Young 14th Edition

Instant Answer

Solved by Expert Madhur L

05/25/2023

Step 1

The wave function is a plane wave with wave number $k_I = \sqrt{2m(E_1 - U_I)}/\hbar$. The wave function can be written as: $$\psi_I(x) = A e^{ik_I x} + B e^{-ik_I x}$$ where A is the amplitude of the incident wave and B is the amplitude of the reflected wave. In Show more…

Show all steps

lock

Thanks for your feedback!

A: D: E 0.327 nm $E_1$ II $U_{II}$ $U(x)$ B: C: Fig. 1(a) 2 nm (b) I $U_I$ Fig. 2 Q2. (15 pts) For the potential shown in Fig. 2. Assume that an electron with energy $E_1$ is incident from the left. (a) Write the wave solutions that apply in Region I and II. (5 pts) (b) Develop an expression for the wavelength of electrons in Region I in terms of the energy, $E_1$, of the electron and the potential energy in Region I, $U_I$. (2.5 pts) (c) Develop an expression for the wavelength of electrons in Region II in terms of the energy, $E_1$, of the electron and the potential energy in Region II, $U_{II}$. (2.5 pts) (d) Sketch the expected form of the solution for $\psi(x)$. (You may sketch it on the plot above, but explain it) (5 pts)

Play audio

Feedback

Powered by NumerAI

Madhur L and 84 other subject Physics 103 educators are ready to help you.

Ask a new question

Labs

Want to see this concept in action?

NEW

Explore this concept interactively to see how it behaves as you change inputs.

View Labs

Key Concepts

Recommended Videos

Recommended Textbooks

Transcript

Ace is your personal tutor. It breaks down any question with clear steps so you can learn.

Start Using Ace

Continue solving this problem

Create a free account to:

View full step-by-step solution
Ask follow-up questions with Ace AI
Save progress and study later