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Torque is the product of (force) x (distance from the center of rotation).So with a distance from the center that's large enough or small enough,any force can produce as much or as little torque as you want.
Gravitational, Electromagnetic, Small nuclear, and Large nuclear force..
the weight is put on the angle of the lever not the small force pushing it down
if large force is applied keeping the minimum moment arm then it produces a very small torque or even no torque.
Yes that is correct
Torque is the product of (force) x (distance from the center of rotation).So with a distance from the center that's large enough or small enough,any force can produce as much or as little torque as you want.
Small force on small mass :When we exhale the air the force of exhaled air is less. Tiny particles of less masses are present in the nearer air and they start moving with large velocity. On Large mass : it's well explained in pascal's law. From that we can apply small force on larger mass .
It applies a small amount of force to produce a large amount of force.
Earth has more mass.
Gravitational, Electromagnetic, Small nuclear, and Large nuclear force..
the weight is put on the angle of the lever not the small force pushing it down
if large force is applied keeping the minimum moment arm then it produces a very small torque or even no torque.
Yes that is correct
They indicate a large pressure difference over a small area, which will cause strong winds.
Small force on small mass :When we exhale the air the force of exhaled air is less. Tiny particles of less masses are present in the nearer air and they start moving with large velocity. On Large mass : it's well explained in pascal's law. From that we can apply small force on larger mass .
Can a small force ever exert a greater torque than a larger force? Explain yes it is possible if small force is applied with a larger moment arm(lever arm) as compared to larger force.
Gravitationally, the same force does not affect a small mass and a large mass.The small mass is acted upon by a smaller gravitational force, and the large massis acted upon by a larger gravitational force. The result is that the small mass andthe large mass fall with the same acceleration, and meet the ground with the samespeed. During the fall, onlookers typically nudge each other and remark to each other:"My word! The large mass weighs more than the small mass!" They are correct in theirimpression, and the scientific reason behind their perspicacious observation is the factthat the gravitational force acting on the large mass is greater than the gravitationalforce acting on the small mass.