My task is to calculate the constant from an ODE. So, I don't want to plot the function, I just want to get the result of the differential equation, and after that I need to calculate the c based on this assumption: v0=120 when t0=0. I have started to implement with help of sympy module, and I get successfully the following result:[120.000000000000 -2.23606797749979/tanh(C1)] But, after that I have no idea how I could get c1. Is it possible?
import inline as inline import sympy as sp import numpy as np from scipy import integrate import matplotlib.pyplot as plt from sympy import * from sympy import lambdify t=Symbol('t') v = map(Function, 'v') v=Function('v') k=2 g=10 i=dsolve(Eq( Derivative(v(t), t)+k*v(t)**2, g), v(t)) j=i.subs(v(t),120).subs(t,0).evalf() print(i) print(j) h=j.args k=np.array(h)