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It depends on the mass of the plane. The heavier the plane, the more lift it needs.
-- If the 40 kilogram mass is on the Earth, you need about 392 newtons (88.2 pounds).-- If the same mass is on the moon, you need about 64.9 newtons (14.6 pounds).-- If it's inside a space ship with you and your ship is coasting, then you canlift it with ANY force, no matter how large or small. In fact, after you lift it, you'llneed to apply force in the opposite direction in order to make it stop lifting.
The formula for force is( Force=mass multiplied by acceleration). To answer your question, we can see that as and distance are directly proportional. If you increase mass, to get to your target force, you will not need as much acceleration.
In order to accurately measure force, you will need to understand the relationship between force, mass and acceleration. You will need to measure the mass, acceleration and then multiply the mass by the acceleration to find the force.
Since the force of gravity is directly proportional to mass, then increasing the mass of an object increases the force of gravity it produces.Since accceleration = force/mass, then increasing the mass of an object means it will have a smaller acceleration for the same force (or alternatively that you need more force to produce the same acceleration).
It depends on the mass of the plane. The heavier the plane, the more lift it needs.
-- If the 40 kilogram mass is on the Earth, you need about 392 newtons (88.2 pounds).-- If the same mass is on the moon, you need about 64.9 newtons (14.6 pounds).-- If it's inside a space ship with you and your ship is coasting, then you canlift it with ANY force, no matter how large or small. In fact, after you lift it, you'llneed to apply force in the opposite direction in order to make it stop lifting.
Assuming you need a metric ton, that's 1000 kilograms. To lift that, you need a FORCE of 9800 newtons. Force is related to pressure by: pressure = force / area, so the answer to the original question would depend, over what area the force is applied.
The formula for force is( Force=mass multiplied by acceleration). To answer your question, we can see that as and distance are directly proportional. If you increase mass, to get to your target force, you will not need as much acceleration.
According to Newton's second law, force equals mass times acceleration.
In order to accurately measure force, you will need to understand the relationship between force, mass and acceleration. You will need to measure the mass, acceleration and then multiply the mass by the acceleration to find the force.
It depends on how you want to move it. To lift it, the force will need to be greater than the weight of the elephant. To push it, you will need sufficient force to both displace its mass and overcome the friction between the elephant's feet or body and the surface it rests on. I think before I did anything else, I'd entice it with an apple. Dead elephants I leave to Phyicists who have nothing better to do.
As gauss is a measure of magnetic attraction and 55 pounds is a mass the question is difficult to answer, please give more detail of what you intend to lift
You need two forces, which you simply add together: 1) The force required simply to support the weight. Multiply the mass times the gravity. 2) The force required to accelerate it. Find this force with Newton's Second Law. Then just add the two forces together.
Work is equal to force x distance. So it will depend on how much force you apply to lifting the cat, and also how far off the ground you lift it.
If the force is not greater than the weight of the bale, the bale will not move.
Mass can't be changed to newtons. The newton is a unit of force, not mass.In order to find the acceleration, you need to know the mass and the force.Then, the acceleration is (force) divided by (mass).