Punov/3.2.5/laba.py

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2022-10-17 00:45:30 +03:00
import matplotlib.pyplot as plt
import numpy as np
import csv
def main():
plot2(open_CSV('R=0.csv'), open_CSV('R=100.csv'))
def open_CSV(filename):
with open('/home/dmitrii/Physics Labs/3.2.5/' + filename, newline="") as csvfile:
datareader = csv.reader(csvfile, delimiter=",", quotechar="|")
data = []
for row in datareader:
res = [float(i) for i in row]
data.append(res)
data = np.array(data)
return data
def plot2(data1, data2):
U_1 = max(data1[:, 0])
U_2 = max(data2[:, 0])
print(U_1, U_2)
fig, ax = plt.subplots()
y1 = data1[:, 0]/U_1
x1 = data1[:, 1]/1550
y2 = data2[:, 0]/U_2
x2 = data2[:, 1]/1558
ax.scatter(x1, y1, color='green', label='0 Ом', marker='+', s=150)
ax.scatter(x2, y2, color='orange', label='100 Oм', marker='+', s=150)
ax.legend(fontsize=16)
ax.grid()
plt.ylabel(r'$U/U_{m}$', fontsize=18)
plt.xlabel(r'$\nu/\nu_{m}$', fontsize=18)
ar1 = sorted(data1[:, 1])
ar2 = sorted(data2[:, 1])
plt.show()
delta1 = ar1[len(data1)-1] - ar1[0]
delta2 = ar2[len(data2)-1]-ar2[0]
Q1 = 1550/63
Q2 = 1550/220
print(Q1, Q2)
# def plot(data):
# x1=
if __name__ == '__main__':
main()