# Calculating and applying friction

I have been researching how to apply friction and there is a part I am stuck on, which is how to apply that friction to the velocityy (if in fact I am calculating the friction force correctly that is).

When I have a ball on a surface, with a normal of (0, 1, 0), with a present velocity of (2, 0, 0) then I will calculate my friction force as (0, -0.3, 0). However, what I don't understand is how to properly apply that to my velocity. If I simply, subtract it then my velocity will be (2, -0.3, 0), however, shouldn't the friction be cause the x component to be more less?

Here is my current code, if anyone could please take a look at I would greatly appreciate it. There are some optimizations to be made, I am aware of that.

``````mTotalForces = D3DXVECTOR3(0.0f, 0.0f, 0.0f);

D3DXVECTOR3 vSurfaceNormalized;
D3DXVec3Normalize(&vSurfaceNormalized, &vSurfaceNormal);
D3DXVECTOR3 vFrictionForce(0.0f, 0.0f, 0.0f);

D3DXVECTOR3 forceAndVelocity = mTotalForces + m_vVelocity;
float fVelocityMagnitude = sqrt((forceAndVelocity.x * forceAndVelocity.x) + (forceAndVelocity.y * forceAndVelocity.y) + forceAndVelocity.z * (forceAndVelocity.z));
float fFrictionForceMagnitude = 0.0f;
float fFrictionForce = 0.0f;

if(fVelocityMagnitude == 0.0f)
{
fFrictionForce = m_fStaticFrictionCoefficient;

D3DXVECTOR3 vStaticFriction = -m_fStaticFrictionCoefficient * vSurfaceNormalized;
vFrictionForce = vStaticFriction;
}
else if(fVelocityMagnitude > 0.0f)
{
fFrictionForce = m_fKineticFrictionCoefficient;

D3DXVECTOR3 vKineticFriction = -m_fKineticFrictionCoefficient * vSurfaceNormalized;
vFrictionForce = vKineticFriction;
}

{
float fFrictionForceMagnitude = abs(fFrictionForce * D3DXVec3Dot(&vSurfaceNormalized, &forceAndVelocity));

if(fFrictionForceMagnitude > fVelocityMagnitude)
{
fFrictionForceMagnitude = 0.0f;
m_vVelocity = D3DXVECTOR3(0.0f, 0.0f, 0.0f);
}
else
{
m_vVelocity -= vFrictionForce;
}
}
``````

I make the total force zero at the start of this friction function because if there is friction, then the previous force (gravity) should not influence the velocity later. (... right?)

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Why would your friction force be in the y direction if your ball is moving in the x direction along a surface in the x-z plane? –  Oliver Charlesworth Dec 9 '11 at 3:04
Your physics is a little off. give this a read: hyperphysics.phy-astr.gsu.edu/hbase/frict2.html –  Nope Dec 9 '11 at 3:06
@ Oli Charlesworth, that is what I am trying to figure out ... I agree, it should be in the x direction –  mmurphy Dec 9 '11 at 3:13

Your code has a number of problems. So, I'm going to step through them, in addition to answering your actual question. First,

``````D3DXVECTOR3 forceAndVelocity = mTotalForces + m_vVelocity;
``````

is incorrect as force and velocity are conceptually very different. This is embodied in their different units, so they can not be added. From the next line,

``````float fVelocityMagnitude = sqrt((forceAndVelocity.x * forceAndVelocity.x) + ...
``````

I believe you want `forceAndVelocity` to be strictly velocity.

I'd redo the first `if` statement as follows,

``````float fFrictionCoefficient = 0.0f;
if(fVelocityMagnitude == 0.0f)
{
float fFrictionCoefficient = m_fStaticFrictionCoefficient;
}
else if(fVelocityMagnitude > 0.0f)
{
float fFrictionCoefficient = m_fKineticFrictionCoefficient;
}
``````

I dropped the vector calculations as they were parallel to the normal not perpendicular.

The magnitude of the friction is the coefficient of friction times the magnitude of the normal force, so

``````float fFrictionForceMagnitude = fFrictionCoefficient
* sqrt(D3DXVec3Dot(&vSurfaceNormal, &vSurfaceNormal));
``````

In the second `if` statement, you're again comparing force and velocity, and what you're trying to do is determine when static friction may be overcome. Essentially, you need to determine if all other forces exceed the friction, so you need to compare the magnitude of the total forces without friction to the magnitude of the friction force. So, I'd redo the `if` block as

``````float fForceMagnitude = sqrt(D3DXVec3Dot(&mTotalForces, &mTotalForces));

if(fFrictionForceMagnitude > fForceMagnitude)
{
float m_vVelocity = D3DXVECTOR3(0.0f, 0.0f, 0.0f);
}
else
{
float mTotalForces -= fFrictionForceMagnitude * m_vVelocity / fVelocityMagnitude;
}
``````

where the last line is the answer to your question. The friction force opposes velocity, so it is opposite in direction to your velocity, where `m_vVelocity / fVelocityMagnitude` is the normalized velocity. Note, this doesn't directly affect the velocity, instead your velocity is

``````D3DXVECTOR3 m_vVelocity = mTotalForces * time / mass;
``````

where `mass` is the mass of the object;

-
One problem I have noticed is that "fForceMagnitude" will always be zero. This is because at the top of the function, total forces has had gravity subtracted out and is now zero. The rest is very interesting, while most of makes perfect sense, I was wondering, where did you learn that? Do you happen to know of a reference? –  mmurphy Dec 9 '11 at 6:35
On a surface perpendicular to the direction of gravity, it is perfectly cancelled out be the normal force (Newton's 3rd law). But, if the surface is at an angle, some component of the gravity is parallel to the surface, so the total forces may not sum to zero. Otherwise, your object will require some other impetus to get moving. As to where I've learned it, I'm nearly finished with my Ph.D., and I teach this. As to a good reference, I like hyperphysics. –  rcollyer Dec 9 '11 at 13:33
"On a surface perpendicular to the direction of gravity, it is perfectly cancelled out be the normal force (Newton's 3rd law)." So does this mean that I do not to subtract out gravity at all and it will automatically be done by newtons 3rd law? –  mmurphy Dec 9 '11 at 18:13
I have noticed that with velocity being (2.0, 0, 0), total force being (0, -9.8, 0) and normal being (0, 1, 0) that the first time through "mTotalForces" will end up being something such as (-0.3, -9.8, 0) after the mTotalForces calculation, which to me seems like it would be wrong. The reason I feel that way is because if there is a resting contant to apply friction, then shouldn't there be no gravity applied since it would then start to penetrate the surface? –  mmurphy Dec 9 '11 at 18:14
Sorry for asking two questions on you, this appears to be the final thing blocking me. Do you happen to have any further input? –  mmurphy Dec 12 '11 at 7:12

First of all, your friction should be tangential to your surface, alongside the direction of the velocity vector. So in your case, your force vector would be (-0.3,0,0). Then your friction is a force so you can't add it to a velocity just like this. Your force performs a work that affects the velocity. That work changes over time and could be actually proportional to your velocity.

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how can I calculate it so that force vector would be (-0.3, 0, 0)? –  mmurphy Dec 9 '11 at 3:14
I guess as a first approximation, you can say that your friction independent on your speed. You just have to pick a number that makes sense with the mass of the ball. Because the next stage is to integrate the effect of friction on your ball as it moves. If that friction force is the only force acting on your ball in the direction of movement (gravity and reaction of the surface cancel each other), then your equation of motion is m*a = F_{friction}. So over your timestep dt, your velocity changes by dv = F_f / m * dt. Does it make sense? –  FrenchKheldar Dec 9 '11 at 3:26

Dynamic friction is always applied parallel to the surface of contact, that is, perpendicular to the normal, not along the normal.

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How can I calculate and apply that? –  mmurphy Dec 9 '11 at 3:24