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What would be the momentum if the velocity were tripled?
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
What would be the momentum of a passenger bus if its velocity were tripled?
The momentum of the bus would increase by a factor of three since momentum is directly proportional to velocity. The bus's momentum is equal to the product of its mass and velocity.
What would be the momentum of the passenger bus its velocity were doubled?
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
What would be the momentum of a passenger bus if its velocity were doubled?
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
What would be the momentum of a passenger bus if its velocity were troubled?
The momentum of the passenger bus would depend on its mass and velocity. To calculate it, multiply the mass of the bus by its velocity. If the velocity is troubled, the momentum would change accordingly, decreasing or increasing depending on the direction and magnitude of the velocity change.
What would be the momentum if the velocity were tripled?
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
What would be the momentum of a passenger bus if its velocity were tripled?
The momentum of the bus would increase by a factor of three since momentum is directly proportional to velocity. The bus's momentum is equal to the product of its mass and velocity.
What would be the momentum of the passenger bus its velocity were doubled?
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
What would be the momentum of a passenger bus if its velocity were doubled?
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
What would be the momentum of a passenger bus if its velocity were troubled?
The momentum of the passenger bus would depend on its mass and velocity. To calculate it, multiply the mass of the bus by its velocity. If the velocity is troubled, the momentum would change accordingly, decreasing or increasing depending on the direction and magnitude of the velocity change.
What would be the momentum of the passenger bus if its velocity were doubled?
a) doubled b) tripled c) doubled (assuming the engine is used to bring it back to the same speed) d) quadrupled e) halved
What would be the momentum of a passenger bus if both its velocity and mass were doubled?
If both the velocity and mass of the passenger bus are doubled, its momentum would increase by a factor of four. This is because momentum is directly proportional to both mass and velocity according to the formula p = mv, where p is momentum, m is mass, and v is velocity.
What would be a passenger bus's new momentum if its velocity were double?
momentum is mass x velocity so if we double v then momentum becomes 2 times greater or double also
What would be the momentum of a passenger bus if its mass were doubled by adding more passenger and a great load?
The momentum of the bus would double if its mass is doubled while keeping its velocity constant. Momentum is directly proportional to mass, so doubling the mass would result in a doubling of momentum as long as the velocity remains the same.
What would be the momentum of a bus' passenger if its mass and velocity were doubled?
4 times its original momentum. The equation for momentum is: m*v=p So, doubling mass and velocity gives: 2m*2v=4p
What happens to kinetic energy if the velocity is tripled?
EXPLANATION:- We know that:- K.E = 1/2 m v^2 => K.E is directly proportional to the square of velocity. Conclusion:- If velocity becomes tripled than K.E. becomes Nine times to its initial value.
When a car increases its velocity its momentum?
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.
