as the momentum of the ship is greater than that of the car, it takes a longer time for the ship to come to a halt. Hence it takes a longer time for the ship to come to rest than the car.
car wheel moving until the breaks not applied
Inertia - since the packages are moving, they have the tendency to continue moving.
If a force is being applied to a moving object, it will change its velocity (it will accelerate) appropriately.
The reason that it takes a moving truck a much longer time to stop than it takes a car to stop when the brakes are applied on both is because the truck weighs more. The more mass a vehicle has the longer it will take to stop.
The reason that it takes a moving truck a much longer time to stop than it takes a car to stop when the brakes are applied on both is because the truck weighs more. The more mass a vehicle has the longer it will take to stop.
The friction produced that stops an object moving when force is applied is 'static friction'.
They are moving faster
They are moving faster
friction
Static friction. The frictional force is greater then the force applied, meaning the object can't move.
heat energy in the breaks. The breaks heat up.
You are not moving, if you are comparing to the car.