Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am attempting to calculate the angle required to fire a projectile in order to hit a specific coordinate.

My projectile is located a random coordinate and my target coordinate at a static coordinate.

I ended up running across the following equation on Wikipedia for calculating the angle required to hit a coordinate at (x,y) from (0,0):

I have made some attempts to understand this and other formula and attempted the following implementation (I am using c# and XNA).

double y = source.Y - target.Y;
double x = Vector2.Distance(source, target);
double v = 1440; //velocity
double g = 25; //gravity
double sqrt = (v*v*v*v) - (g*(g*(x*x) + 2*y*(v*v)));
sqrt = Math.Sqrt(sqrt);
double angleInRadians = Math.Atan(((v*v) + sqrt)/(g*x));

I have also attempted the following, which resulted in an identical angle where the values of v and g remain the same.

double targetX = target.X - source.X;
double targetY = -(target.Y - source.Y);
double r1 = Math.Sqrt((v*v*v*v) - g*(g*(target.X*target.X) + ((2*target.Y)*(v*v))));
double a1 = ((v*v) + r1)/(g*target.X);
angleInRadians = -Math.Atan(a1);
if (targetX < 0)
{
    angleInRadians -= 180/180*Math.PI;
}

My conjecture is that even in my (assumed) attempt to zero out the source coordinate, that I am still not performing the calculation correctly for coordinates with a non (0,0) source and different elevations.

Below is an image that depicts my coordinate system. It is the default for XNA.

share|improve this question
1  
I think you should translate your actual positions to (0,0)-based system, perform the function there and perform a final translation from (0,0) to actual system...assuming there are no factors other than gravity, Angle calculated should be the same from any source... –  boxed__l Aug 4 '13 at 21:54
    
What are the other parameters (input) that affects the projectile path, like is the velocity and gravity constants or what other variables are there ? –  Sniffer Aug 4 '13 at 21:54
    
Isn't gravity supposed to be negative? It's -9.8m/s if I recall correctly. –  Pierre-Luc Pineault Aug 4 '13 at 21:55
    
I will give that a try @boxed__l. You are correct that gravity is the only factor. –  Timothy Randall Aug 4 '13 at 22:01
    
@Sniffer the inputs are a source coordinate, target coordinate, a constant initial velocity of 1440m/s, a constant gravity of 25m/s. –  Timothy Randall Aug 4 '13 at 22:04
show 2 more comments

2 Answers 2

I think the real problem lies in the use of arctan. Because the range is limited to -pi/2..pi/2 results are only in the right half plane.

Use arctan2 to get the proper coordinates:

angleInRadians = Math.Atan2(((v*v) + tmp), (g*x));
share|improve this answer
add comment
up vote 0 down vote accepted

Thanks to the help in the comments the solution to find this angle ended up requiring that the positions be translated to a (0,0) based system. For anyone looking for the same scenario the final working solution was:

double x = -(source.x - target.x);
double y = (source.y - target.y);
double v = 1440; //m/s
double g = 25; //m/s
double sqrt = (v*v*v*v) - (g*(g*(x*x) + 2*y*(v*v)));
sqrt = Math.Sqrt(sqrt);
angleInRadians = Math.Atan(((v*v) + sqrt)/(g*x));

Then to convert the radians into a vector that works with XNA, perform the following conversion:

Vector2 angleVector = new Vector2(-(float)Math.Cos(angleInRadians), (float)Math.Sin(angleInRadians));
share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.