It all depends on its acceleration, velocity, speed and its mass. The faster somthing goes, the more time it takes to slow down. To slow the same onject down fater, more force has to be applied in the opposite direction. A less massive object [lighter] takes less time to slow down than a more massive object [heavier].
The inertia. Commonly measured in units of mass - kilograms in the SI.
The inertia. Commonly measured in units of mass - kilograms in the SI.
The inertia. Commonly measured in units of mass - kilograms in the SI.
The inertia. Commonly measured in units of mass - kilograms in the SI.
The measure is inertia. Inertia is the tendency of an object to resist a change in its motion.
The inertia. Commonly measured in units of mass - kilograms in the SI.
law of conservation of momentum
the answer is momentum
momentum
Momentum
force is the measurement
Friction causes the bike to slow down.
Friction
The equation is F = M A, where F is the Force required to stop the object, M is the object's Mass, and A is its Acceleration. Note that its acceleration in this case is the rate at which you are DE-ACCELERATING the object to stop it.
The momentum of an object is the product of the object's mass and velocity. This is essentially a measure of how hard it is to stop an object.
force is the measurement
it depends on the mass of an object
A devise to slow or stop a moving object.
Friction causes the bike to slow down.
Friction
friction
A devise to slow or stop a moving object.
it is force which can slow down or stop motion
friction can slow down the object or make it stop. it can also cause the object to create heat.
The equation is F = M A, where F is the Force required to stop the object, M is the object's Mass, and A is its Acceleration. Note that its acceleration in this case is the rate at which you are DE-ACCELERATING the object to stop it.
The equation is F = M A, where F is the Force required to stop the object, M is the object's Mass, and A is its Acceleration. Note that its acceleration in this case is the rate at which you are DE-ACCELERATING the object to stop it.
To stop or slow down the transfer of heat from one object to another.