momentum (p) = mass * velocity
bullet = 0.02 kg * 1 000 m/s = 20 kg.m/s
ship = 10 000 000 kg * 10 m/s = 100 000 000 kg.m/s
That would depend on their velocity (speed with direction), since the formula for momentum is momentum=Mass*Velocity. If they are moving at the same Velocity, the heavier of the two would have greater momentum.
While a truck may have more mass than a bicycle, momentum is also influenced by velocity. If the bicycle is traveling at a significantly higher speed than the truck, it can have more momentum due to the combination of its mass and velocity. Momentum is calculated as mass multiplied by velocity, so a lighter object with higher velocity can have more momentum than a heavier object with lower velocity.
The large truck moving at 30 miles per hour will have more momentum because momentum is directly proportional to an object's mass and velocity. Since the large truck has more mass than the small truck, it will have more momentum at the same speed.
In pool, momentum refers to the transfer of energy between the cue ball and the object ball when they collide. When the cue ball strikes the object ball, momentum is transferred, causing the object ball to move. The more momentum the cue ball has, the more force it will impart on the object ball, resulting in a faster and more controlled shot.
Newton's laws of Motion state that Momentum is a product of Mass times velocity. Momentum = Mass x velocity. Therefore, a loaded truck needs a larger force to move it, and once it's moving, it needs more powerful brakes to stop it. So a fully loaded truck will have more momentum and be harder to stop than an empty truck.
That would depend on their velocity (speed with direction), since the formula for momentum is momentum=Mass*Velocity. If they are moving at the same Velocity, the heavier of the two would have greater momentum.
While a truck may have more mass than a bicycle, momentum is also influenced by velocity. If the bicycle is traveling at a significantly higher speed than the truck, it can have more momentum due to the combination of its mass and velocity. Momentum is calculated as mass multiplied by velocity, so a lighter object with higher velocity can have more momentum than a heavier object with lower velocity.
If a car and a truck are traveling at the same speed, the truck would have more momentum because it has a greater mass.
The large truck moving at 30 miles per hour will have more momentum because momentum is directly proportional to an object's mass and velocity. Since the large truck has more mass than the small truck, it will have more momentum at the same speed.
In pool, momentum refers to the transfer of energy between the cue ball and the object ball when they collide. When the cue ball strikes the object ball, momentum is transferred, causing the object ball to move. The more momentum the cue ball has, the more force it will impart on the object ball, resulting in a faster and more controlled shot.
A parked semi truck has no momentum. A moving bicycle does. If both the bike and the truck are moving at the same speed in the same direction, the truck will have more because it has more mass.
moving truck
Newton's laws of Motion state that Momentum is a product of Mass times velocity. Momentum = Mass x velocity. Therefore, a loaded truck needs a larger force to move it, and once it's moving, it needs more powerful brakes to stop it. So a fully loaded truck will have more momentum and be harder to stop than an empty truck.
Yes. At the same velocity, a truck would have more momentum than a car as it has greater mass. Momentum is the product of mass and velocity: ρ=mv
The bowling ball would have more momentum because it has more mass than the golf ball. Momentum is calculated as the product of an object's mass and velocity, so a heavier object moving at the same velocity will have more momentum.
A truck that is more massive with the same velocity as the truck that is less massive will definitely have more momentum. This is illustrated in the equation for momentum:p = mvWhere p is momentum which is measured in Newton seconds, m is mass which is measured in kilograms, and v is velocity, measured in meters per second. If you plug in a larger mass for that same equivalent velocity, it will accordingly have more momentum.Also, if you just think about it, what would be harder to move: something with more mass or something with less mass?
A bowling ball has more momentum. You cannot throw it as fast, but a tenpin ball weighs 16 pounds and a baseball only 1/3 pound. Momentum is mass times velocity and if you throw the bowling ball at 10 mph but the baseball at 90 mph the bowling ball still has much more momentum.