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Mass doesn't like to move. Rather, it doesn't like to be forced to move. The first law of motion by Newton states that an object in motion will stay in motion until an external force is acted upon it. The second law of motion by Newton states that force is equal to mass multiplied by acceleration. The more something weighs, or the more mass it has, the more acceleration or force is required to move it. So to answer your question shortly, increase in mass affects how much acceleration or force is needed to move that mass.
The amount of force required to change the motion of an object depends on its mass and the desired change in motion (acceleration). This relationship is described by Newton's second law of motion, which states that force is equal to mass multiplied by acceleration (F = ma). Therefore, a larger mass or a greater change in motion will require a greater force.
If the pulley is fixed (hanging from the ceiling), and the rope passes over it, then 100 lbs of force is required. If the rope is fixed to the ceiling and passes under the pulley (which is fixed to the load), then 50 lbs of force is required.
That depends on the spring.
Any amount will do.
What are the dimensions of the wheels? (required to convert rpm to a speed). What gradient is the wheelchair being pushed on? Uphill/downhill, what angle?
its a calculation of how much force is required in relation to how much force is applied by the pads on the disc.
As much as 100 lbs
60060
it measures how much force is needed to to move it
Mass doesn't like to move. Rather, it doesn't like to be forced to move. The first law of motion by Newton states that an object in motion will stay in motion until an external force is acted upon it. The second law of motion by Newton states that force is equal to mass multiplied by acceleration. The more something weighs, or the more mass it has, the more acceleration or force is required to move it. So to answer your question shortly, increase in mass affects how much acceleration or force is needed to move that mass.
The amount of force required to change the motion of an object depends on its mass and the desired change in motion (acceleration). This relationship is described by Newton's second law of motion, which states that force is equal to mass multiplied by acceleration (F = ma). Therefore, a larger mass or a greater change in motion will require a greater force.
If the pulley is fixed (hanging from the ceiling), and the rope passes over it, then 100 lbs of force is required. If the rope is fixed to the ceiling and passes under the pulley (which is fixed to the load), then 50 lbs of force is required.
That depends on the spring.
Party poppers are normally popped with a force applied by a finger. The force required is maybe 10 Newtons.
Any amount will do.
The height is irrelevant. The energy required depends on the height; the force does not. The weight of an object, and therefore the force required to lift it, is mass x gravity - about 500 Newtons.The height is irrelevant. The energy required depends on the height; the force does not. The weight of an object, and therefore the force required to lift it, is mass x gravity - about 500 Newtons.The height is irrelevant. The energy required depends on the height; the force does not. The weight of an object, and therefore the force required to lift it, is mass x gravity - about 500 Newtons.The height is irrelevant. The energy required depends on the height; the force does not. The weight of an object, and therefore the force required to lift it, is mass x gravity - about 500 Newtons.