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The slow moving train has a much higher mass than the high-speed bullet, but the bullet has a faster velocity than the slow moving train so their momentum is the same.
more mass in motion= higher stored energy, requiring more forces (friction, gravity) to still the momentum of the heavier object.
The conclusion for a lab about the conservation of linear momentum is exactly that. Linear momentum is conserved. Momentum p = m*v is a product of mass and velocity. The larger the mass or faster the velocity, the higher the momentum. It takes prolonged force to stop it. Also, if a closed system exists that is not affected by dissipative forces, the total momentum of the system will remain. In a collision between two objects, momentum is conserved.
In physics, momentum = mass x velocityhigher the mass or higher the velocity, higher is the momentum. Note, momentum is a vector quantity i.e it has both magnitude and direction. For instance, when two bodies A of velocity 3m/s and B of velocity 6m/s both of equal masses collide, A moves in the direction of B. Mathematically, the momentum of A is given a negative sign(-) meaning that the momentum of A is in the direction of B
Because high altitude winds are faster.
Momentum is the product of velocity and mass - so to have a "higher momentum", the object must either be more massive, or it must move faster.
It has more momentum from a higher height. Because momentum is always conserved, and momentum is the product of mass times velocity, more sand particles must move away faster in order to conserve the momentum of a heavy ball moving fast. The ball is moving faster from a higher height because the acceleration due to gravity (-9.81 m/s^2) increases the velocity of a falling object after each second its been falling.
I would have to say when a gymnast is doing giants on the bars to get power for their dismount. they go faster and faster to get higher and flip more
The electron, because it has much less mass than the proton and momentum is the product of mass and speed.
Linear momentum, p=mv, is proportional to mass and velocity. Since the bowling ball far outweighs the volleyball, the difference in velocity would have to be determined in order for them to possess the same amount of momentum. If the volleyball is traveling at a high enough speed (orders of magnitude higher), they can both have the same momentum. Either that or fill the volleyball with concrete.
The height of a ramp affects the speed of a car because the higher the ramp the faster the car will come down. The higher up the ramp the more momentum the car will gain. People take delight in pooping. Pooping is thought by some to be a joyous activity.
weathering occurs faster at high elevations because
plane because it is higher and faster
Water evaporate faster in sun because the temperature is higher.
you will fall faster on the earth because earth has a higher gravity
The slow moving train has a much higher mass than the high-speed bullet, but the bullet has a faster velocity than the slow moving train so their momentum is the same.
An object with more momentum will have more inertia. Inertia is the ability to resist a change in force; objects with higher masses and higher speeds will have greater inertia. Speed * mass = momentum