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A vehicle's momentum depends on its mass and velocity. The momentum of a vehicle is the product of its mass and its velocity. The larger the mass or velocity of a vehicle, the greater its momentum.
== == Go to a Mass State Motor Vehicle office and ask at the counter.
This vehicle does not use a mass airflow sensor.This vehicle does not use a mass airflow sensor.
The mass of a Japanese car varies between 1000 kilograms to about 2000 kilograms depending with the type of the vehicle. The heavier the vehicle the safer the vehicle.
Gross vehicle mass is the maximum cargo weight recommended by the vehicle manufacturer. It means you should not carry a load heavier than they recommend.
the total mass of the vehicle and the load it contains
The higher the mass, the greater the velocity of a vehicle. Upon impact, the vehicle may stop however the momentum of the payload continues. As a result the vehicle with less mass will be damaged more.
-- mass of the vehicle -- speed of the vehicle
The greater the mass the greater the inertia. Thus if both vehicles were travelling at the same speed the vehicle with the greater mass would have the most inertia and thus be the hardest to stop.
The Magellan spacecraft is a robotic space probe and is also known as the Venus Radar Mapper. It has a vehicle launch mass of 2,282 pounds.
Gross vehicle mass is the maximum cargo weight recommended by the vehicle manufacturer. It means you should not carry a load heavier than they recommend.
mass production and the assembly line.. Henry Ford did not discover mass production nor did he discover the assembly line. The modern assembly line was patented by Ransom Olds in 1901 at the Olds Motor Vehicle Company 7 years before the Ford Motor Company was founded in 1908. Mass production goes back as far as the Chinese in the 16th century. Henry Ford did not discover or invent anything. He just perfected what was already there.