43 lines
794 B
Python
43 lines
794 B
Python
import math
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import random
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# m_e = 9.10938e-31
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# e = 1.602e-19
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# pi = 3.141592
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# epsilon_0 = 8.854e-12
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# h_bar = 1.05457e-34
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# h=6.626e-34
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# c=299792458
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# my_B=9.274e-24
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# k_B=1.381e-23
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# avog=6.022e26
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# m_Kalium=39.0983/avog
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# def E(n):
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# return -m_e*e**4 / (2*(4*pi*epsilon_0*h_bar*n)**2)
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# def dE(n1,n2):
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# return -m_e*e**4 / (2*(4*pi*epsilon_0*h_bar)**2) * (1/n2**2 - 1/n1**2)
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# def lamb(E1,E2):
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# return c*h*(E1-E2)**-1
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# # print(E(3))
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# # print(E(2))
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# # print(lamb(E(3),E(2)-2*my_B*2)*10**9)
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# Ekin = 3/2*k_B*600
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# v_x = math.sqrt(2*Ekin/m_Kalium)
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# t_acc = 0.2 / v_x
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# F = my_B * 2
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# d = 1/2*F/m_Kalium*t_acc**2
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# v_z_end = F/m_Kalium*t_acc
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# print(v_z_end/v_x)
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# print(1.492+0.1492)
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# sum = 0
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# for i in range(18):
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# sum += random.randint(1,4)
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# print(sum)
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