The angle and distance between the two vectors.

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Yonghyun el 13 de Feb. de 2017

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Editada: Roger Stafford el 14 de Feb. de 2017

In a two-dimensional vector space, assume that there is one vector u(a, b) and another unknown vector v(c, d). If I knew angle and distance between these two vectors, how can I calculate the unknown vector v? I means the elements of a vector v. If I can calculate, how should I apply in Matalb??

Thank you very much.

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Honglei Chen el 13 de Feb. de 2017

could you clarify how the distance is defined between two vectors?

YongHyun el 14 de Feb. de 2017

Both vectors have origin (0,0) and the distance means the distance between the end points of the vector. Thanks.

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Answer 1

Roger Stafford el 14 de Feb. de 2017

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You have a known vector u = [a,b] and an unknown vector v = [c,d]. The distance as you have defined it is a known

r = sqrt((c-a)^2+(d-b)^2)

and the angle in radians measured counterclockwise from u to v is a known A. You are to find v.

B = atan2(b,a);
C = cos(A+B);
S = sin(A+B);
t1 = a*C+b*S+sqrt(r^2-(a*S-b*C)^2);
t2 = a*C+b*S-sqrt(r^2-(a*S-b*C)^2);
c1 = t1*C;
d1 = t1*S;
c2 = t2*C;
d2 = t2*S;
v1 = [c1,d1];
v2 = [c2,d2];

As you can see, there will generally be two real solutions or none.

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Jan el 14 de Feb. de 2017

One solution is possible also.

Roger Stafford el 14 de Feb. de 2017

Editada: Roger Stafford el 14 de Feb. de 2017

Yes, you're right Jan. If the line of the vector happens to be exactly tangent to the circle of radius r, there will be just one solution. That's why I qualified my statement with the word 'generally'.

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