how to calculate angle from coordinate
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noor faizah zohardin
el 2 de Nov. de 2017
Comentada: noor faizah zohardin
el 5 de Nov. de 2017
![](https://www.mathworks.com/matlabcentral/answers/uploaded_files/169097/image.png)
how to calculate all angle for this image if i have coordinate
>> S1=[X1 Y1];
>> S2=[X2,Y2];
>> S3=[X3,Y3];
>> S4=[X4,Y4];
>> S5=[X5,Y5];
>> S6=[X6,Y6];
>> S7=[X7,Y7];
>> S8=[X8,Y8];
2 comentarios
Walter Roberson
el 2 de Nov. de 2017
Is it fully connected? I see some hints it might be, but from the diagram we cannot tell if the bottom left is connected to the mid left and upper left separately or if the bottom left is connect to the mid left and the mid left connected to the upper left without there being a lower left to upper left.
Walter Roberson
el 2 de Nov. de 2017
Respuesta aceptada
Roger Stafford
el 2 de Nov. de 2017
Editada: Roger Stafford
el 2 de Nov. de 2017
If A, B, and C are three points in two-dimensional space defined by 1 x 2 coordinate row vectors, here’s the way I like to compute the angle ABC - that is, the angle between line segments AB and CB:
AB = A-B;
CB = C-B;
ang = atan2(abs(det([AB;CB])),dot(AB,CB)); % Angle in radians
(Corrected)
2 comentarios
Roger Stafford
el 2 de Nov. de 2017
Editada: Roger Stafford
el 2 de Nov. de 2017
You are right, Walter. I mistakenly left out the square brackets around AB:CB. I've made the correction.
Más respuestas (1)
Walter Roberson
el 3 de Nov. de 2017
Vectorizing Roger's formula:
X = [X1, X2, X3, X4, X5, X6, X7, X8];
Y = [Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8];
[Aidx, Bidx, Cidx] = ndgrid(1:8, 1:8, 1:8);
Ax = X(Aidx);
Ay = Y(Aidx);
Bx = X(Bidx);
By = Y(Bidx);
Cx = X(Cidx);
Cy = Y(Cidx);
ABx = Ax - Bx;
ABy = Ay - By;
CBx = Cx - Bx;
CBy = Cy - By;
det_term = ABx .* CBy - ABy .* CBx;
dot_term = ABx .* CBx + ABy .* CBy;
ang = atan2(abs(det_term),dot_term); % Angle in radians
Now, ang will be 8 x 8 x 8, and ang(I,J,K) is the angle between [X(I),Y(I)] to [X(J),Y(J)] to [X(K), Y(K)] . These will not be useful for any duplicated coordinates, but I leave it to you to extract the 336 useful angles, which will probably depend upon what you intend to do with the information.
3 comentarios
Walter Roberson
el 3 de Nov. de 2017
No, that is not correct unless you are measuring the angles relative to a fixed axes, which is not what Roger's formula does.
Roger's formula asks: given line segment AB formed by the line between A and B, and line segment BC formed by the line between B and C, what is the angle AB to BC ? So like the angle for the line between stations (5,2) and (2,6), the 5-2-6 angle.
With 8 possible sources, 7 possible intermediate stations and 6 possible destinations (that is, avoiding lines that double back on themselves), that is 8 * 7 * 6 = 336 angles.
It is certainly possible to instead ask what the angle is relative to the y axis, but that is not what Roger's formula calculates.
To ask the angle relative to the y axis, you would use
atan2(ydest - ysource, xdest - xsource)
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