Esempio n. 1
0
import os
import subprocess

from nonlinear import NonLinear
from animator import Animator
import numpy as np

RG = NonLinear()

RG.dx = 0.1
RG.dy = 0.1
x = np.arange(-10, 10, RG.dy)
y = np.arange(-10, 10, RG.dy)
RG.x, RG.y = np.meshgrid(x, y)

RG.dz = 0.02
RG.z = np.arange(0, 6, RG.dz)

# RG.eta = 0.25065
RG.eta = 0.3
RG.a0 = np.exp(-RG.eta * (RG.x**2 + RG.y**2))

RG.kappa = 1
RG.integrate()

filename = 'repulse.mp4'

anim = Animator(RG)
anim.start_animation(filename)

devnull = open(os.devnull, 'w')
Esempio n. 2
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from nonlinear import NonLinear
from animator import Animator
import numpy as np

RG = NonLinear()

RG.dt = 0.1
RG.times = np.arange(-10, 10, RG.dt)

RG.dz = 0.02
RG.z = np.arange(0, 50, RG.dz)

RG.T0 = 2
RG.a0 = np.exp(-RG.times**2 / RG.T0**2)

RG.integrate('c')

anim = Animator(RG)
anim.start_animation()
Esempio n. 3
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from nonlinear import NonLinear
from animator import Animator
import numpy as np

RG = NonLinear()

RG.dt = 0.02
RG.times = np.arange(-10, 10, RG.dt)

RG.dz = 0.02
RG.z = np.arange(0, 10, RG.dz)

RG.eta = 1
RG.a0 = RG.eta / np.cosh(RG.times * RG.eta)

RG.integrate()

anim = Animator(RG)
anim.start_animation()
Esempio n. 4
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#Tiffany Wang 260684152
#Numerical Methods ECSE 543 - Assignment 3

import math
from curvefitting import CurveFitting
from nonlinear import NonLinear
from circuit import Circuit
from integration import Integration

cv = CurveFitting()
nl = NonLinear()
c = Circuit()
i = Integration()

#======================================Question 1======================================

# # a)
# B_1 = [0.0, 0.2, 0.4, 0.6, 0.8, 1.0]
# H_1 = [0.0, 14.7, 36.5, 71.7, 121.4, 197.4]

# #get H value at every 0.01
# x = [0.01 * i for i in range(101)]
# result = []
# for i in range(len(x)):
# 	print "B: ", i, "   H: ", round(cv.lagrange(x[i], B_1, H_1), 5)
# 	result.append(cv.lagrange(x[i], B_1, H_1))

# file = open("magnetic1.csv", "w")
# for i in range(len(x)):
# 	string = str(x[i]) + ", " + str(result[i]) + "\n"
# 	file.write(string)
Esempio n. 5
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from nonlinear import NonLinear
from animator import Animator
import numpy as np

RG = NonLinear()

RG.dt = 0.01
RG.times = np.arange(-50, 50, RG.dt)

RG.dz = 0.0001
RG.z = np.arange(0, 1, RG.dz)

# RG.T0 = 7
# RG.a0 = np.exp(-RG.times**2 / RG.T0**2)
size = len(RG.times)
RG.a0 = np.zeros(size)
RG.a0[np.where(abs(RG.times) < .5)] = 0.5 * np.pi

RG.integrate()

anim = Animator(RG)
anim.start_animation()
Esempio n. 6
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import numpy as np

from nonlinear import NonLinear
from animator1 import Animator

RG = NonLinear()

RG.dt = 0.1
RG.times = np.arange(-150, 150, RG.dt)

RG.dz = 0.02
RG.z = np.arange(0, 20, RG.dz)

T0 = 1.5
RG.a0 = T0 * np.exp(-RG.times**2 * T0)

RG.integrate('NLS')

anim = Animator(RG)
anim.start_animation()
Esempio n. 7
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from nonlinear import NonLinear
from animator import Animator
import numpy as np

RG = NonLinear()

RG.dt = 0.1
RG.times = np.arange(-25, 25, RG.dt)

RG.dz = 0.01
RG.z = np.arange(0, 50, RG.dz)

RG.T0 = 7
RG.a0 = np.exp(-RG.times**2 / RG.T0**2)

RG.integrate('d')

anim = Animator(RG)
anim.start_animation()