# Angle between two Vectors 2D

I'm trying to compute the angle between two vectors. I tried this, but it always returns zero:

public double GetAngle(Vector2 a, Vector2 b)
{
double angle = Math.Atan2(b.Y, b.X) - Math.Atan2(a.Y, a.X);
return angle;
}

GetAngle(new Vector2(1,1), new Vector2(50,50));

• Math.Atan2(b.Y - a.Y,b.X - a.X); Commented Nov 19, 2012 at 17:28
• @Shmiddty if that's an answer you should post it as an answer. Commented Nov 19, 2012 at 17:29
• This will probably give you the angle from 0 to the hypotenuse. So, I think you want: Math.PI - angle Commented Nov 19, 2012 at 17:30
• Answer to this question may also be of use: stackoverflow.com/questions/4159219/angle-measurer-in-c-sharp Commented Apr 8, 2013 at 10:24
• The description of the problem is confusing. Do you want the angle between the vectors or the angle of a right triangle with two vectors? Commented Nov 11, 2014 at 15:52

You should take a look at the documentation of atan2 (here).

What you're looking of is finding the difference between B (your upper left vector) and A (your bottom right vector), then pass this as a parameter to atan2

return Math.Atan2(b.Y - a.Y, b.X - a.X);

What your code currently does is find the angle of the vector b in reference to 0,0 and subtract the angle of the vector a in reference to 0,0.

The reason you always get 0 is because 1,1 and 50,50 are on the same line that crosses 0,0 (both calls return something approx. 0.785398), so subtracting them will result in 0

• Thx, it works in radians, so I will use MathHelper.ToDegrees((float)angle), of course :). Commented Nov 19, 2012 at 17:36
• Yes, the return value is in radians :) Commented Nov 19, 2012 at 17:37
• Would this be the same as subtracting the vectors first to get a directional vector? Then running the Atan2 on the X and Y of the new vector? Commented Aug 25, 2013 at 17:53
• Yes it's the exact same thing! Visualize a vector (0.5, 0.5) and (-0.5, 0.5) so, respectively 45 and 135 degrees from the X axis. If you subtract both vectors, you will have (1, 0), which is 90 degree from the X axis. Commented Aug 26, 2013 at 3:34
• This is incorrect. This measures the angle of the vector between the end points of vector a and b. Commented Nov 11, 2014 at 15:48

I think code show as below copy from .NET source code could help you.

/// <summary>
/// AngleBetween - the angle between 2 vectors
/// </summary>
/// <returns>
/// Returns the the angle in degrees between vector1 and vector2
/// </returns>
/// <param name="vector1"> The first Vector </param>
/// <param name="vector2"> The second Vector </param>
public static double AngleBetween(Vector vector1, Vector vector2)
{
double sin = vector1._x * vector2._y - vector2._x * vector1._y;
double cos = vector1._x * vector2._x + vector1._y * vector2._y;

return Math.Atan2(sin, cos) * (180 / Math.PI);
}

A simple solution should be this:

Vector2 a_normalized = normalize(a);
Vector2 b_normalized = normalize(b);
double angle = arccos(dot(a_normalized,b_normalized));

http://simple.wikipedia.org/wiki/Dot_product

This is Pseudo-code, because C# is not my world. Sorry

if you are looking for the "angle between vectors a and b", you want the delta of the angle for vector a and the angle for vector b:

Math.Atan2(b.Y, b.X) - Math.Atan2(a.Y, a.X)

But the diagram doesn't match "angle between vectors". The answer for the diagram is indeed the previous answer given:

Math.Atan2(b.Y - a.Y, b.X - a.X)

You have to use the difference in x and y inside of the Atan2 method:

Math.Atan2(b.Y - a.Y,b.X - a.X);

Also, I believe this will give you the angle from 0 to the hypotenuse of the triangle you've provided (not entirely sure).

I'd suggest trying Math.PI - angle.

I'm a bit late to the party, but how about the static method on the Vector class:

Vector.AngleBetween(vector1, vector2)

opposite = a.y - b.y

Math.Atan((a.Y - b.Y) / (b.X - a.X));

since you use vector2 class, I guess you can use

a-b

to get the vector from a to b.

so the angle you need is: Pi - angle(a-b).

public static class FunAngleCalc
{
public static double angle(MathPoint p1, MathPoint center, MathPoint p2)
{
MathPoint transformedP1 = new MathPoint(p1.x - center.x, p1.y - center.y);

MathPoint transformedP2 = new MathPoint(p2.x - center.x, p2.y - center.y);
double angleToP1 = Math.Atan2(transformedP1.y, transformedP1.x);

double angleToP2 = Math.Atan2(transformedP2.y, transformedP2.x);

}

private static double normaliseToInteriorAngle(double angle)
{
if (angle < 0)
{
angle += (2 * Math.PI);
}
if (angle > Math.PI)
{
angle = 2 * Math.PI - angle;
}
return angle;
}