why i can't get same plot when i change Real to Im?

2 visualizaciones (últimos 30 días)
salim
salim el 24 de En. de 2025
Comentada: Walter Roberson el 24 de En. de 2025
i plot the real one but when i change the plot for abs i can get the abs why i can't get that of this function
0.2e1 * (0.4e1 * exp((-8 * t + 2 * x)) + 0.9e1 * exp((-27 * t + 3 * x)) + 0.25e2 * exp((-35 * t + 5 * x + 2))) / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) - 0.2e1 * (0.2e1 * exp((-8 * t + 2 * x)) + 0.3e1 * exp((-27 * t + 3 * x)) + 0.5e1 * exp((-35 * t + 5 * x + 2))) ^ 2 / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) ^ 2
and my code for ploting is
abs(0.2e1 .* (0.4e1 * exp((-8 * t + 2 * x)) + 0.9e1 .* exp((-27 * t + 3 * x)) + 0.25e2 .* exp((-35 * t + 5 * x + 2))) ./ (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) - 0.2e1 * (0.2e1 .* exp((-8 * t + 2 * x)) + 0.3e1 .* exp((-27 * t + 3 * x)) + 0.5e1 .* exp((-35 * t + 5 * x + 2))) .^ 2 ./ (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 .* x)) + exp((-35 * t + 5 * x + 2))) .^ 2).^2
  2 comentarios
Torsten
Torsten el 24 de En. de 2025
Editada: Torsten el 24 de En. de 2025
I can't see a difference:
f = @(x,t) 0.2e1 * (0.4e1 * exp((-8 * t + 2 * x)) + 0.9e1 * exp((-27 * t + 3 * x)) + 0.25e2 * exp((-35 * t + 5 * x + 2))) / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) - 0.2e1 * (0.2e1 * exp((-8 * t + 2 * x)) + 0.3e1 * exp((-27 * t + 3 * x)) + 0.5e1 * exp((-35 * t + 5 * x + 2))) ^ 2 / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) ^ 2
f = function_handle with value:
@(x,t)0.2e1*(0.4e1*exp((-8*t+2*x))+0.9e1*exp((-27*t+3*x))+0.25e2*exp((-35*t+5*x+2)))/(exp(0.2e1)+exp((-8*t+2*x))+exp((-27*t+3*x))+exp((-35*t+5*x+2)))-0.2e1*(0.2e1*exp((-8*t+2*x))+0.3e1*exp((-27*t+3*x))+0.5e1*exp((-35*t+5*x+2)))^2/(exp(0.2e1)+exp((-8*t+2*x))+exp((-27*t+3*x))+exp((-35*t+5*x+2)))^2
x = -20:0.1:20;
t = -4:0.1:4;
for i = 1:numel(x)
for j = 1:numel(t)
p(i,j) = f(x(i),t(j));
end
end
figure()
surf(x,t,p.','Edgecolor','none')
figure()
surf(x,t,abs(p.'),'Edgecolor','none')
From the title of your plots, it seems that the name of an array you use is "abs" ? If so, rename it.
Walter Roberson
Walter Roberson el 24 de En. de 2025
In Maple, map(abs,solnum) applies the function abs to the elements of solnum one by one. It is more or less equivalent to MATLAB's arrayfun(@abs, solnum)

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Respuestas (1)

Walter Roberson
Walter Roberson el 24 de En. de 2025
Movida: Walter Roberson el 24 de En. de 2025
You are plotting in Maple. MATLAB returns correct results.
syms x t
map(x,t) = 0.2e1 * (0.4e1 * exp((-8 * t + 2 * x)) + 0.9e1 * exp((-27 * t + 3 * x)) + 0.25e2 * exp((-35 * t + 5 * x + 2))) / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) - 0.2e1 * (0.2e1 * exp((-8 * t + 2 * x)) + 0.3e1 * exp((-27 * t + 3 * x)) + 0.5e1 * exp((-35 * t + 5 * x + 2))) ^ 2 / (exp(0.2e1) + exp((-8 * t + 2 * x)) + exp((-27 * t + 3 * x)) + exp((-35 * t + 5 * x + 2))) ^ 2;
fsurf(real(map), [-20 20 -5 5])
fsurf(imag(map), [-20 20 -5 5])
fsurf(abs(map), [-20 20 -5 5])
  3 comentarios
Walter Roberson
Walter Roberson el 24 de En. de 2025

All values produced by the function are already real values that are non-negative. The absolute value is therefore the same as the original values

Walter Roberson
Walter Roberson el 24 de En. de 2025
If solnum is the formula then when you map(abs, solnum) then you are applying abs() to the pieces of the formula rather than to the overall result of the formula.
Now, it looks to me as if each of the pieces of the formula should already be positive, but just maybe the map() is doing something like converting exp((-8 * t + 2 * x)) to exp(abs(-8 * t + 2 * x))

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