An object at rest has zero momentum. For example, a stationary rock on the ground has zero momentum because both its mass and velocity are zero.
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.
When an object is still it has no momentum. That is, the momentum is zero.
No, a stationary object does not have momentum because momentum is the product of an object's mass and its velocity. If an object is not moving (velocity is zero), then its momentum will also be zero.
An object does not have momentum when it is stationary or not in motion. Momentum is a product of an object's mass and velocity, so if either of these values is zero, the object's momentum will also be zero.
No, a resting object does not have momentum because momentum is the product of an object's mass and velocity. Since a resting object has zero velocity, its momentum is also zero.
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.
When an object is still it has no momentum. That is, the momentum is zero.
No, a stationary object does not have momentum because momentum is the product of an object's mass and its velocity. If an object is not moving (velocity is zero), then its momentum will also be zero.
An object does not have momentum when it is stationary or not in motion. Momentum is a product of an object's mass and velocity, so if either of these values is zero, the object's momentum will also be zero.
No, a resting object does not have momentum because momentum is the product of an object's mass and velocity. Since a resting object has zero velocity, its momentum is also zero.
An object at rest has zero momentum because momentum is the product of an object's mass and its velocity, and if the velocity is zero, then the momentum is also zero.
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.
The momentum of an object with zero velocity is zero. Momentum is calculated as mass multiplied by velocity, so if velocity is zero, momentum will also be zero.
To make the momentum of an object zero, you need to ensure that the object is at rest or its velocity is zero. This can be achieved by balancing the forces acting on the object, such that the net force is zero and the object does not accelerate. In simple terms, if the initial momentum of the object is non-zero, you can make it zero by applying an equal and opposite force to cancel out the momentum.
A stationary object has zero momentum since momentum is the product of an object's mass and its velocity. In this case, since the object is not moving, its momentum is zero.
Measured in the frame of reference in which the object is at rest; zero since momentum is mass times velocity. Note that momentum is zero but inertia is not.
Momentum of any object is given by p = m*vWhere p = momentum, m = mass and v = velocity.If an object is not moving that means its velocity is zero and by using above mentioned formula we get, p = m*0, p = 0.