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in short, friction.
Because when you brake, the brakes stop the wheels from moving. But that doesn't stop the bike from moving. It means that the speed/force/velocity at which you were traveling was forceful enough to override the brakes. So basically, you're sliding.
Inertia - since the packages are moving, they have the tendency to continue moving.
No. A moving car has a lot of energy. To get it to stop, that energy has to be removed somehow, usually by the brakes. If you try to remove all that energy at once, something will break. Any passengers will be flung forward with destructive force.
the partsbreaks are is better than much of most things cant feel while being used.
Weight movement from the vehicle, such as the drop of the hood.
It is your momentum of moving forward that has to be overcome before your brakes can bring the bicycle to a stop.
If you are in a fast moving car and the brakes are applied suddenly and hard, your body will continue moving in the forward direction.
Of course. A car with brakes applied and slowing down has forward velocity and rearward acceleration.
Your momentum wants to keep moving forward.
Inertia. A body in motion will remain in motion unless acted upon by an outside force. The motion of the bus is stopped by the brakes. The person inside keeps moving as it is not being braked.
in short, friction.
Because when you brake, the brakes stop the wheels from moving. But that doesn't stop the bike from moving. It means that the speed/force/velocity at which you were traveling was forceful enough to override the brakes. So basically, you're sliding.
Check ABS system.
they're so heavy that it takes the brakes some time to dissipate all that moving energy.
Because of inertiaAn object will keep moving until an outside force is applied.
holo = speeding; moving quickly. There is no such word for imua. "Always moving forward" ?