It points to the law of linear conservation of momentum, the total momentum after collision is the same as before the collision, say each car including driver has a mass of 200 kg, car A is moving at 5 metres / second, car B is stationary. Momentum of the moving car makes up all the momentum prior to collision and is = mass * velocity = 200 * 5 = 1000 kg.m/s, assuming an elastic(or perfect) collision, in which no energy is lost as heat or noise, the momentum after the collision will still be 1000 kg.m/s, but the mass will have increased to 400 kg (total of both cars), so the equation after collision:
1000 = 400 * velocity, velocity = 1000 / 400 = 2.5 metres / second
Well it can support in so many ways, bumper cars is a motion reason.....
Nothing
The hammer exerts a force on the nail; the nail exerts a force on the hammer.
Very carefully.
Chrome (chromium) is the mirror like finish on older cars.
Ideally, complete combustion. In practice it isn't always, which is why cars have catalytic converters.
two cars going 50 mph crashing into each other. That would be double the force and the cars would bounce back a tiny ammount. it would feel like a car going 100 mph hitting you while your naked
a car crash bumper cars
Bumper cars !!!
Are there bumper cars in universal studios
10-15 bumper cars depending on the size of the bumper car floor.
go to etrade. they have tons of cars, but why do they have to be BUMPER cars!!??
Bumper cars use electricity, which could be from a nuclear plant
There is one noun in the sentence, bumper cars, a compound noun.
It is about £260 a bumper car.
the beachhouse
bumper cars, hockey puck, rocket launch, swimming, rowing in a boat. for example if you run into a wall and you use force on hitting it, the wall will use the same force to push you back, that why you bounce off the wall with the same force as you hit it.
bumper
Put the fake vomit in front of the kids, they will run, then you go up to the guy and he will let you in the bumper cars.