how do i solve this equation using matlab

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Anthony Irvine il 4 Mar 2023

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Commentato: Rik il 9 Mar 2023

T(x,y,z,t)=\frac{2\times A\times P_\max\times\sqrt\alpha}{k\times\pi^\frac{2}{3}\times r^2}\int_0^{\sqrt t}\times\frac{1}{1+\frac{4\times\alpha\times u^2}{r^2}} \times\exp (\frac{-x^2-y^2}{r^2+4\times\alpha\times u^2}-\frac{z^2}{4\times\alpha\times u})du

ive created my equation using latex but i am not sure how to write a script to solve for T and plot a temperature time graph. some guidance would be appreciated.

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John D'Errico il 4 Mar 2023

It seems to have some errors in it. At least LaTeX did not seem to like what it saw on my computer. It is difficult to write MATLAB code for something if you cannot even show the problem you want to solve.

So if you want help, then you need to make it possible to help you.

Rik il 9 Mar 2023

I recovered the removed content from the Google cache (something which anyone can do). Editing away your question is very rude. Someone spent time reading your question, understanding your issue, figuring out the solution, and writing an answer. Now you repay that kindness by ensuring that the next person with a similar question can't benefit from this answer.

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Torsten il 4 Mar 2023

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Spostato: Torsten il 4 Mar 2023

Apri in MATLAB Online

T = @(x,y,z,t) 2*A*P_max*sqrt(alpha)/(k*pi^(2/3)*r^2)*integral(@(u)1./(1+4*alpha*u.^2/r^2).*exp(-(x^2+y^2)./(r^2+4*alpha*u.^2)-z^2./(4*alpha*u),0,sqrt(t))

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Torsten il 4 Mar 2023

Apri in MATLAB Online

tic

x=1;

y=1;

z=1;

A = 1;

P_max = 1;

r = 1;

k = 1;

alpha = 1;

T = @(x,y,z,t) 2*A*P_max*sqrt(alpha)/(k*pi^(2/3)*r^2)*integral(@(u)1./(1+4*alpha*u.^2/r^2).*exp(-(x^2+y^2)./(r^2+4*alpha*u.^2)-z^2./(4*alpha*u)),0,sqrt(t))

T = function_handle with value:

@(x,y,z,t)2*A*P_max*sqrt(alpha)/(k*pi^(2/3)*r^2)*integral(@(u)1./(1+4*alpha*u.^2/r^2).*exp(-(x^2+y^2)./(r^2+4*alpha*u.^2)-z^2./(4*alpha*u)),0,sqrt(t))

t_upper = 3;

t = linspace(0, t_upper, 250);

T_num = arrayfun(@(t) T(x,y,z,t),t)

T_num = 1×250

0 0.0004 0.0013 0.0024 0.0037 0.0050 0.0063 0.0077 0.0091 0.0105 0.0118 0.0132 0.0146 0.0160 0.0173 0.0186 0.0200 0.0213 0.0226 0.0239 0.0251 0.0264 0.0276 0.0289 0.0301 0.0313 0.0325 0.0336 0.0348 0.0359

plot(t,T_num)

toc

Elapsed time is 0.492061 seconds.

Torsten il 4 Mar 2023

how can i change the integration limits so that it could be sqrt ( time minus a constant)

By defining the constant before defining the function handle T and changing "sqrt(t)" in the definition of T to whatever you like as upper limit of integration.

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