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Despite I've read some documentation about projectile motion, still I'm not sure if my issue is something that I don't fully understand, or something that I'm doing wrong. I'm just calculating the formulas for that motion, 'x' and 'y' components, in a function that gets called every frame, like this:

v0x = projectileDir.x * projectile.initialVelocity   
v0y = projectileDir.y * projectile.initialVelocity

(v0x, v0y) are the initial velocity of the projectile. Once the projectile is shot, 'v0x' and 'v0y' don't change their values. After, at every frame, a new position is calculated:

x = x0 + v0x * t

y = y0 + v0y * t - 0.5 * g * t * t

where , 't' is the elapsed time since the projectile was shot, and 'g' is 9.8

I've found that if 'g' is always 9.8, 'projectile.initialVelocity' must be very small to be able to appreciate the curve movement, but then the bullet moves too slow. Then I have to fake 'g' with a bigger value to appreciate the curve with a faster movement. But, if I do that, the formula is not true.

What am I doing wrong? It's quite important, any help will be really appreciated. Thanks very much.

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2  
Where is phyton and javascript tags? –  Soner Gönül Nov 9 '13 at 11:11
    
Sorry, I assumed that this would be a question for any programming language as C++, Java,... –  user1625678 Nov 9 '13 at 11:13

2 Answers 2

When you are calculating the projectile motion you need to be taking into account the the fact that the initial velocity is made up of a vertical component and a horizontal component.

Say that the initial velocity is a vector V0 then V0 can be broken down into its components as follows V0 = V0x * i + V0y * j where i and j are the unit vectors parallel to the axes and V0x and V0y are the scalar amounts in those directions.

Say you know the angle that the projectile was launched at then you can use trigonometry to find the component breakdown. I can make a diagram if needed. I'm guessing that projectileDir.x and projectileDir.y are from this breakdown. But if not then I think that you might not be taking this fully into account as you are using projectile.initialVelocity in both the x and y coordinate directions unchanged when really these should be different quantities found from the components. To fix this you would need to find the components of the initialvelocity that are in the x and y directions for the initial velocity.

It looks as though you are using the correct formula for the displacements, given your approach of calculating the change in velocities, so the initial velocity calculation appears to be the issue.

It should also be noted that when the initial velocity is larger then then curve will appear less steep, this is not a bug, this is just how these things work.

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projectileDir is the initial direction of the bullet normalized, projectile.initialVelocity is just a scalar, the length of the velocity to be applied, so (v0x,v0y) = projectileDir * velocityLength (velocityLength = projectile.initialVelocity) Do you think that this way could be still wrong? –  user1625678 Nov 9 '13 at 17:29
    
@user1625678 How are you normalizing the values? –  shuttle87 Nov 13 '13 at 19:47

Finally I fixed my issue like this. Following code is execued each update of the bullet position

m_fTimer += fElapsed;

// parabolic path calculation, tanking into account Earth gravity
m_vPos.x = m_vStartPos.x + m_vVelocity.x*m_fTimer;
m_vPos.y = m_vStartPos.y + m_vVelocity.y*m_fTimer - 0.5f*GRAVITY*m_fTimer*m_fTimer;

// velocity must change each iteration
m_vVelocity.y = m_vStartPos.y - GRAVITY*m_fTimer;

What I didn´t get at the beginning is velocity.y must be different each update, and velocity.x is constant. Anyway thanks for your comments, shuttle87

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