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If one vehicle is going 20 MPH and another is going 60 MPH the one going 60 MPH has times the momentum as the one going 20 MPH?
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Equation to find momentum?
Momentum is the product of Mass times Velocity Momentum = MV
What is Mass times distance divided by time?
Momentum. Distance divided by time is speed. Mass times speed is momentum.
What is the momentum of someone running at the speed of 4 ms?
Momentum is mass times velocity. What is the mass of someone?
What is the equation you use to determine the momentum of an object?
momentum is described as mass times velocity. p=mv.
What is the formula to calculate momentum?
Momentum (p) is mass (m) times velocity (v), so p = mv
What must you know to determine which of two vehicles traveling at the same velocity has the greater momentum?
To determine which vehicle has the greater momentum, you need to know the mass of each vehicle. Momentum is defined as momentum = mass x velocity, so the vehicle with the greater mass will have the greater momentum. If the vehicles have the same mass, then they will have the same momentum.
Does Crash severity increases with the speed of the vehicle at impact?
Yes, all things being equal, crash severity does increase proportional to the speed of each vehicle at impact, and is a vector sum. So, there is a big difference between crash severity at impact from being "rear-ended" (when one vehicle is traveling the same direction as another, and impacts the front of their vehicle with the rear of another) and a "head-on" impact (two cars traveling into one another, impacting both front bumpers). In the rear-end impact, you take the momentum (mass times velocity) of the rear, impacting vehicle "A" and subtract the momentum of the front-most impacted vehicle "B", and that gives you the resultant impact force (the difference in momentum being transferred). weak impact scenario example: vehicle A is traveling 60 mph, and vehicle B is the same mass and is traveling 50 mph. The difference in momentum would be the mass times 10 mph...not much. severe impact scenario: vehicle A is traveling 70 mph, and vehicle B is at rest (0 mph)...large impact. In the head-on impact, you have the most severe crash scenario. In this case, you ADD the momentum of vehicle A with the momentum of vehicle B, and you get the resultant force of impact. Even if both vehicles are traveling 30 mph, with the same mass, and have a heaad-on collision, the is close to the same as one vehicle traveling 10 mph and hitting the other vehicle going 70 mph...severe impact.
Crash severity increases with the speed of the vehicle at impact?
Yes, all things being equal, crash severity does increase proportional to the speed of each vehicle at impact, and is a vector sum. So, there is a big difference between crash severity at impact from being "rear-ended" (when one vehicle is traveling the same direction as another, and impacts the front of their vehicle with the rear of another) and a "head-on" impact (two cars traveling into one another, impacting both front bumpers). In the rear-end impact, you take the momentum (mass times velocity) of the rear, impacting vehicle "A" and subtract the momentum of the front-most impacted vehicle "B", and that gives you the resultant impact force (the difference in momentum being transferred). weak impact scenario example: vehicle A is traveling 60 mph, and vehicle B is the same mass and is traveling 50 mph. The difference in momentum would be the mass times 10 mph...not much. severe impact scenario: vehicle A is traveling 70 mph, and vehicle B is at rest (0 mph)...large impact. In the head-on impact, you have the most severe crash scenario. In this case, you ADD the momentum of vehicle A with the momentum of vehicle B, and you get the resultant force of impact. Even if both vehicles are traveling 30 mph, with the same mass, and have a heaad-on collision, the is close to the same as one vehicle traveling 10 mph and hitting the other vehicle going 70 mph...severe impact.
How can a heavy moving van have the same momentum as a small motorcycle?
Momentum = Mass x Velocity. They could have the same momentum if the motorcycle is going fast and the van is going slow. If the van weighs ten times as much as the motorcycle, and is driving 5 mph it would have the same momentum as the motorcycle driving 50 mph.
Equation to find momentum?
Momentum is the product of Mass times Velocity Momentum = MV
Compute the momentum of a 50 kg bike and a 30 kg rider going 10 m s?
The momentum of the bike can be calculated as mass times velocity, so the momentum of the bike is 50 kg * 10 m/s = 500 kg m/s. The momentum of the rider can be calculated as mass times velocity, so the momentum of the rider is 30 kg * 10 m/s = 300 kg m/s.
Momentum is mass times?
Momentum is mass times velocity. It is a vector quantity that describes the motion of an object. The greater the mass or velocity of an object, the greater its momentum.
What do you need to have momentum?
based on the momentum formula, momentum equals mass times velocity, momentum can be achieved when something with mass is moving. P=mv
What is Mass times distance divided by time?
Momentum. Distance divided by time is speed. Mass times speed is momentum.
A lunar vehicle is tested on earth at a speed of 10 kmh when it travels as fast on the moon is its momentum more less or the same?
The momentum of the lunar vehicle is the same on both Earth and the Moon since momentum is defined as mass multiplied by velocity, and the mass of the vehicle remains constant. Therefore, regardless of the difference in gravitational acceleration between Earth and the Moon, the momentum of the vehicle at the same speed will be the same in both environments.
Is it true that momentum is not equal to the mass of an object divided by its velocity?
That is correct. Momentum is defined as the product of an object's mass and its velocity, not the mass divided by the velocity. The equation for momentum is p = mv, where p is momentum, m is mass, and v is velocity.
What is the property of a moving object that equals its mass times its velocity?
The property of a moving object that equals its mass times its velocity is momentum. Momentum is a vector quantity that describes the motion and inertia of an object. It is calculated using the formula: momentum = mass x velocity.
