If the net force on an object is zero, then the object is in equilibrium. This means there are balanced forces acting upon it, or none at all.
it is 'at rest'
When it is at rest
When an object is still it has no momentum. That is, the momentum is zero.
momentum is the tendency of an object to stay in motion or the force (energy) required to stop an objects motion. an object at rest (not moving) has no momentum.
A stationary object has inertia, but not momentum. Momentum is the product of (mass) times (velocity). If the velocity is zero, then the momentum is zero.
Momentum is related to velocity and mass. When an object's velocity is zero relative to its surroundings, it has no momentum. Therefore it is untrue to say that an object never looses its momentum.
No, momentum is the product of mass and velocity, so if the velocity is zero, so is the momentum.
When an object is still it has no momentum. That is, the momentum is zero.
momentum is the tendency of an object to stay in motion or the force (energy) required to stop an objects motion. an object at rest (not moving) has no momentum.
Momentum = m v (mass, velocity). If either one is zero, momentum is zero. So in order to have momentum, an object must have both mass and speed, in the frame of reference.
A stationary object has inertia, but not momentum. Momentum is the product of (mass) times (velocity). If the velocity is zero, then the momentum is zero.
There is no "energy during momentum". A moving object has both non-zero momentum, and non-zero kinetic energy.
Momentum is related to velocity and mass. When an object's velocity is zero relative to its surroundings, it has no momentum. Therefore it is untrue to say that an object never looses its momentum.
No, momentum is the product of mass and velocity, so if the velocity is zero, so is the momentum.
Momentum = Mass x Velocity. (p=m*v)The mass of an object made of matter can not be zero.If the object (car) is moving, then the velocity will be non-zero, and the object will have non-zero momentum.So, if you are driving or rolling the car, it has momentum.If it is parked, then it will have 0 velocity (with respect to the earth), and thus will have 0 momentum.So, when the car is moving, it has net momentum. When it is parked it has zero momentum. I then just becomes a mater of semantics whether having zero momentum is equivalent to not having momentum, or if it is actually a valid value for momentum or state of momentum.
An object at rest. Actually that's the only possible example for a single object. For two objects, you can have objects moving in opposite directions; for example, one may have a momentum of +100 units, and the other, a momentum of -100 units.
If an object is at rest, it has no momentum because the formula for momentum is p = mv, where p= momentum, m = mass and v = velocity. If the object is at rest, then the velocity is zero, so p = m*0. therefore p = 0.
"Momentum" is the product of mass x velocity. You can base your calculations on that.
We don't think you can. Here's our reasoning: -- Kinetic energy of an object is [(1/2)(mass)(speed)2]. If kinetic energy is not zero, then mass can't be zero, and speed can't be zero either. -- Momentum of the object is [(mass)(speed)]. If mass isn't zero and speed isn't zero, then momentum isn't zero.