Add problems

This commit is contained in:
orosmatthew 2024-02-25 19:34:17 -05:00
parent b5b593f061
commit 51b0c79ca3
4 changed files with 90 additions and 0 deletions

View File

@ -1,5 +1,8 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="Black">
<option name="sdkName" value="Python 3.11 (quantum-dev)" />
</component>
<component name="MarkdownSettingsMigration">
<option name="stateVersion" value="1" />
</component>

24
ps9-1a.py Normal file
View File

@ -0,0 +1,24 @@
import numpy as np
import pylab as pl
a = 1
n_vals = [n for n in range(1, 7)]
x_vals = np.linspace(-a / 2, a / 2, 1000)
psi_evens = []
psi_odds = []
for n in n_vals:
if n % 2 == 0:
psi_evens.append(np.sqrt(2 / a) * np.sin(n * np.pi * x_vals / a))
else:
psi_odds.append(np.sqrt(2 / a) * np.cos(n * np.pi * x_vals / a))
pl.title("First 6 Solutions for Infinite Square Well")
for psi_even in psi_evens:
pl.plot(x_vals, psi_even, color='blue')
for psi_odd in psi_odds:
pl.plot(x_vals, psi_odd, color='green')
pl.vlines([-a / 2, a / 2], ymin=-2, ymax=2, color='red')
pl.grid()
pl.show()

19
ps9-1b.py Normal file
View File

@ -0,0 +1,19 @@
import numpy as np
a = 1
n_vals = [n for n in range(1, 7)]
N = 1000
dx = 1 / N
x_vals = np.linspace(-a / 2, a / 2, N)
psi_evens = []
psi_odds = []
for n in n_vals:
if n % 2 == 0:
psi_evens.append(np.sqrt(2 / a) * np.sin(n * np.pi * x_vals / a))
else:
psi_odds.append(np.sqrt(2 / a) * np.cos(n * np.pi * x_vals / a))
for i in range(min(len(psi_evens), len(psi_odds))):
print(f'psi_even_{i + 1} * psi_odd_{i + 1} = {np.dot(psi_evens[i], psi_odds[i]) * dx}')

44
ps9-2.py Normal file
View File

@ -0,0 +1,44 @@
import numpy as np
a = 1
hbar = 1.054572e-34
n_vals = [n for n in range(1, 7)]
N = 1000
dx = 1 / N
x_vals = np.linspace(-a / 2, a / 2, N)
psi_funcs = []
psi_derivs = []
psi_2nd_derivs = []
for n in n_vals:
if n % 2 == 0:
psi_funcs.append(np.sqrt(2 / a) * np.sin(n * np.pi * x_vals / a))
psi_derivs.append(np.sqrt(2) * np.pi * n * np.cos(np.pi * n * x_vals / a) / (a * np.sqrt(a)))
psi_2nd_derivs.append(
-(np.sqrt(2) * np.pi ** 2 * n ** 2 * np.sin(np.pi * n * x_vals / a)) / (a ** 2 * np.sqrt(a)))
else:
psi_funcs.append(np.sqrt(2 / a) * np.cos(n * np.pi * x_vals / a))
psi_derivs.append(-(np.sqrt(2) * np.pi * n * np.sin(np.pi * n * x_vals / a)) / (a * np.sqrt(a)))
psi_2nd_derivs.append(
-(np.sqrt(2) * np.pi ** 2 * n ** 2 * np.cos(np.pi * n * x_vals / a)) / (a ** 2 * np.sqrt(a)))
print("======= expect_x =======")
for i in range(len(psi_funcs)):
expect_x = np.sum(psi_funcs[i] ** 2 * x_vals) * dx
print(f'expect_x_{i + 1} = {expect_x}')
print("======= expect_x^2 =======")
for i in range(len(psi_funcs)):
expect_x_sqrd = np.sum(psi_funcs[i] ** 2 * x_vals ** 2) * dx
print(f'expect_x^2_{i + 1} = {expect_x_sqrd}')
print("======= expect_p =======")
for i in range(len(psi_funcs)):
expect_p = np.sum(psi_funcs[i] * 1j * hbar * psi_derivs[i]) * dx
print(f'expect_p_{i + 1} = {expect_p}')
print("======= expect_p^2 =======")
for i in range(len(psi_funcs)):
expect_p_sqrd = np.sum(psi_funcs[i] * hbar ** 2 * psi_2nd_derivs[i]) * dx
print(f'expect_p^2_{i + 1} = {expect_p_sqrd}')