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A passenger's first feel of inertial force in a moving car is a backwards jolt when a car starts moving. The force is more pronounced if the car takes off faster.
Rolling friction causes a car to stop.
Friction with the grass and air will eventually bring the ball to a stop.
Centrifugal force is observed in a ceiling fan. Thrust force is what moves a car moving on the road.
Any object moving or stationary that is on the ground is subjected to a normal/reaction force upwards.
Of course inertia depends upon mass and not the medium in which it is moving therefore ship will need more force to stop and not car.
Things will eventually stop if there is a force to stop it... and no force that keeps it moving. If there are no forces on an object, or the forces are balanced (the friction forces on a car are compensated by forces that pull it forward), it will continue moving.
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It depends on the weight of the car, and the surface upon which it is traveling - as well as what force is being used to stop it (IE a brakeing mechanism).
A passenger's first feel of inertial force in a moving car is a backwards jolt when a car starts moving. The force is more pronounced if the car takes off faster.
A passenger's first feel of inertial force in a moving car is a backwards jolt when a car starts moving. The force is more pronounced if the car takes off faster.
A passenger's first feel of inertial force in a moving car is a backwards jolt when a car starts moving. The force is more pronounced if the car takes off faster.
It takes less force to stop a train than to stop a car.
Friction
Rolling friction causes a car to stop.
There are several ways to force an car engine to stop. One way to force the engine to stop is to disconnect the battery. Another way to force the engine to stop is to turn off the ignition.
the brakes use friction to stop the car