Download - Practica 1 Analógicas serie de fourier
Grfica Sen(t)
t=0:(2*pi)/500:2*pi;y=sin(t);plot(t,y)title('Grfica Seno de t')xlabel('tiempo')ylabel('f(t)')grid
t=0:(2*pi)/100:4*pi;y=sin(t);plot(t,y)title('Grfica Seno de t')xlabel('tiempo')ylabel('f(t)')gridaxis([-1 15 -1.2 1.2])
Grfica Funcin Exponencial Compleja
t=0:(2*pi)/100:2*pi;y=exp(i*t);plot(t,real(y),t,imag(y))title('Exponencial Compleja')xlabel('tiempo')ylabel('f(t)')grid
t=0:(2*pi)/100:4*pi;y=exp(i*t);plot(t,real(y),t,imag(y))title('Exponencial Compleja')xlabel('tiempo')ylabel('f(t)')gridaxis([-1 15 -1.2 1.2])
Grfica Funcin Triangular
t=[0 pi 2*pi]; y=[0 3 0 ];plot(t,y)title('Funcin Triangular')xlabel('tiempo')ylabel('f(t)')grid
t=[0 pi 2*pi 3*pi 4*pi 5*pi]; y=[0 3 0 3 0 3];plot(t,y)title('Funcin Triangular')xlabel('tiempo')ylabel('f(t)')gridaxis([-1 16 -1 4])
Grfica Funcin Cuadrada t=[-6 -6 0 0 6 6 ]; y=[0 -1 -1 1 1 0]; plot(t,y)title('Funcin Cudrada')xlabel('tiempo')ylabel('f(t)')gridaxis([-8 8 -1.2 1.2])
t=[-2 -2 -1 -1 0 0 1 1 2 2]; y=[-1 1 1 -1 -1 1 1 -1 -1 1]; plot(t,y)title('Funcin Cudrada')xlabel('tiempo')ylabel('f(t)')gridaxis([-3 3 -1.2 1.2])
Hctor Guillermo Espinosa Acevedo 5CV4