Why I'm getting a complex degree value while using "acos"?
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% To reproduce the snippet, you can use below code
XYZc = [2489011.31135707, 7440368.1011554, 17.6551714555564];
X0 = 2489018.662
Y0 = 7440333.989
Z0= 10.091
dir_vec1 = XYZc-[X0, Y0, Z0];
dir_mag1= norm(dir_vec1);
dir_vec2 = [0,XYZc(2),0]-[X0, Y0, Z0];
dir_mag2= norm(dir_vec2);
alpha = acosd(dir_mag2/dir_mag1)
1 comentario
Matt J
el 10 de Jun. de 2023
I have edited your post for you to make your code output visible. It is always advisable to do this so we can see what output you are talking about.
Respuesta aceptada
Because abs(dir_mag2/dir_mag1) is greater than 1.
abs(dir_mag2/dir_mag1)
13 comentarios
Matt J
el 10 de Jun. de 2023
There is no problem to be solved. It is the correct result.
Matt J
el 10 de Jun. de 2023
What I mean is, it is not Matlab's fault. It is doing what you asked, correctly. Matlab has no way of knowing, just as I do not, what you were really trying to code.
Torsten
el 10 de Jun. de 2023
In a right-angled triangle, the hypotenuse is always longer than the adjacant. So if you think dir_mag2 is the length of the adjacant and dir_mag1 is the length of the hypothenuse in the triangle you consider, you must have done something wrong.
If you want the angle between dir_vec1 and dir_vec2, it would be,
acosd( dot( dir_vec1/dir_mag1 , dir_vec2/dir_mag2 ) )
Otherwise, you haven't said enough for us to guess what angle your input data is supposed to define.
Abb
el 10 de Jun. de 2023
@Matt J @Torsten thanks both of you, to calify, I want to compute this angle(screenshot), based on this equation, it gets me 78 degree, but visually it looks like a smaller angle that this value?!. Maybe something wrong, do you have any idea?
% i ran this code
vec1 = XYZc-[X0, Y0, Z0];
vec2 = [0,XYZc(2),0]-[X0, Y0, Z0];
acosd(dot(vec1, vec2) / (norm(vec1)*norm(vec2)))
Looks like 78° :-)
XYZc = [2489011.31135707, 7440368.1011554, 17.6551714555564];
X0 = 2489018.662
Y0 = 7440333.989
Z0= 10.091
dir_vec1 = XYZc-[X0, Y0, Z0];
dir_mag1= norm(dir_vec1);
dir_vec2 = [0,XYZc(2),0]-[X0, Y0, Z0];
dir_mag2= norm(dir_vec2);
plot3([0 dir_vec1(1)]/dir_mag1,[0,dir_vec1(2)]/dir_mag1,[ 0,dir_vec1(3)]/dir_mag1)
hold on
plot3([0 dir_vec2(1)]/dir_mag2,[0,dir_vec2(2)]/dir_mag2,[ 0,dir_vec2(3)]/dir_mag2)
Matt J
el 10 de Jun. de 2023
You're welcome, but please Accept-click the answer to indicate that it resolved your question.
Image Analyst
el 11 de Jun. de 2023
It's not in the comments, neither his nor yours. It should be above, at the very first answer post of @Matt J
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