4 times its original momentum.
The equation for momentum is: m*v=p
So, doubling mass and velocity gives: 2m*2v=4p
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
Momentum is directly proportional to the velocity. Thrice the velocity means thrice the momentum.
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
Momentum would be an example of kenetic energy.
4 times its original momentum. The equation for momentum is: m*v=p So, doubling mass and velocity gives: 2m*2v=4p
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
It doubles. Momentum (p) is the product of velocity (v) and mass (m). For a given mass, if you double the velocity, you'll double the momentum. Velocity and momentum are said to be directly proportional. p = m x v
Momentum is directly proportional to the velocity. Thrice the velocity means thrice the momentum.
momentum is mass x velocity so if we double v then momentum becomes 2 times greater or double also
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
The kinetic energy would be quadrupled, and the momentum would be doubled.
When something increases in velocity, its momentum would increase because momentum is equal to its mass * velocity. This means that the momentum and velocity are proportional, so twice the velocity is twice the momentum, and so on.
Momentum would be an example of kenetic energy.
The answer is velocity.