Is there any way to solve this integration with loop?
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Yes, you could replace the following symsum() with a loop that totaled over m
syms m t r positive
syms r__prime real
Pi = sym(pi)
V_r_t = symsum(exp(m*Pi*t)*sin(m*Pi*r)*int(r__prime*sin(m*Pi*r),r__prime,0,1),m,1,10)
4 Comments
Walter Roberson
on 19 Aug 2021
This assumes that 
is a variable that is independent of r rather than being the derivative of r.
is a variable that is independent of r rather than being the derivative of r.
Bajdar Nouredine
on 20 Aug 2021
syms m t r positive
syms r__prime real
Pi = sym(pi)
V_r_t = symsum(exp(m*Pi*t)*sin(m*Pi*r)*int(r__prime*sin(m*Pi*r),r__prime,0,1),m,1,10)
r_vec = 1:10;
t_vec = 1:10;
[R,T] = ndgrid(r_vec,t_vec);
V = subs(V_r_t, {r, t}, {R, T})
Reminder: sin(INTEGER*pi) is 0, and all of the terms of V_r_t have INTEGER*pi*r and all of your r are integer.
Bajdar Nouredine
on 23 Aug 2021
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on 19 Aug 2021
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