1000000
m = mass of car dV = change of velocity dM = change in momentum T= time a = acceleration mile/hour2 dVmph =40mph - 30mph dVmpg = a*T dM = mdV*T F = ma impulse = FT = maT
This depends on a lot of things, what are the road conditions what type of car what model car, new brakes old brakes. Tires also make a huge difference the stopping at 30mph in a Porsche gt2 will be different from a Toyota Camry.
Thrust can affect a car in two basic ways.The cars drive train system creates thrust to push it down the road and the wheels can create thrust to change its direction, all basically the same thing based on the friction created by the tires and force applied by the car through them.External thrust from wind and other factors like a crash. These forces try to push the car around by blowing or pushing the car.
An outside force, gravity, pulls the car down the ramp building up speed. At the bottom of the ramp law 1 kicks in. The car continues to move in a straight line.
It is traveling at about 58.66 feet per second.
30mph
Depends on weather conditions and how fast your going: Perfect/near perfect conditions: 0-30mph 3 car lengths 30-60mph 6 car lenths Raining/fog: 0-30mph 5 car lengths 30-60mph 8 car lengths Snowing/Icey conditions 0-30mph 8 car lengths 30-60mph 11 car lengths
If would not be bad for a car engine to shift from third to second gear if you are traveling at 30mph.
about 22 metres
5 hours what kind of car????????????? any mods????????????????
they wer from 10mph to 30mph
Because there are people out there that loves to do 10 under.
the answer is 30mph
The force required to move a car depends on various factors such as the weight of the car, road conditions, and incline. On average, it can take anywhere from a few hundred to a couple thousand newtons of force to move a car.
in most cars, when your car dont go over about 30mph, its a trans problem.
4 times.
Maximum upto 30mph