#%% #Libraries import numpy as np from scipy.integrate import odeint import matplotlib.pyplot as plt import matplotlib matplotlib.rcParams.update({'font.size': 13}) from matplotlib.widgets import Slider, Button #%% def ODEfun(Yfuncvec, t): # F= Yfuncvec[0] # tm= Yfuncvec[1] # Explicit equations C1= 0.0038746 + 0.2739782*t + 1.574621*t**2 - 0.2550041*t**3 C2= -33.43818 + 37.18972*t - 11.58838*t**2 + 1.695303*t**3 - 0.1298667*t**4 + 0.005028*t**5 - 7.743*10**-5*t**6 C = np.where(t<=4, C1, C2) E=C/51 dFdt=E # Differential equations return dFdt tspan = np.linspace(3, 6, 100) y0 = 0 #%% fig, ax = plt.subplots() fig.suptitle("""LEP-16-2: Mean Residence Time and Variance Calculations (Part d)""", x = 0.3, y=0.98, fontweight='bold') plt.subplots_adjust(left = 0.4) plt.plot(tspan, odeint(ODEfun, y0, tspan)) plt.legend([r"F"], loc='best') ax.set_xlabel('Time (mins)', fontsize='medium') ax.set_ylabel('F', fontsize='medium') plt.ylim(0,0.5) plt.xlim(3,6) plt.grid() ax.text(1.2, 0.15,'Differential Equations' '\n\n' r'$\dfrac{dF}{dt} = E$' '\n\n' 'Explicit Equations' '\n\n' r'$C_1= +0.0038746 + 0.2739782t$''\n\t' r'$+ 1.574621t^2 - 0.2550041t^3$''\n\n' r'$C2= -33.43818 + 37.18972t$''\n\t' r'$- 11.58838t^2 + 1.695303t^3$''\n\t' r'$- 0.1298667t^4 + 0.005028t^5$''\n\t' r'$- 7.743.10{^-5}t^6$' '\n\n' r'$C = If\hspace{0.5} (t<=t1)\hspace{0.5} then\hspace{0.5} (C_1) \hspace{0.5}else\hspace{0.5} (C_2)$' '\n\n' r'$E = \dfrac{C}{51}$' , ha='left', wrap = True, fontsize=13, bbox=dict(facecolor='none', edgecolor='black', pad=10.0), fontweight='bold')