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Which describes how the same force effects a small mass and a large mass?
The same force applied to a small mass will cause a larger acceleration compared to a large mass since acceleration is inversely proportional to mass (F=ma). This means the small mass will experience a greater change in velocity in response to the force compared to the large mass.
Which describes how the same force affects small mass and a large mass?
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.
When you apply a tiny force to a tiny object or a large force to a large object what do you produce?
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 .
How do the accelerations compare if the same force is exerted first is on the large mass and then on a small mass?
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.
How can an object with a large mass have the same acceleration as a an object with an small mass?
According to Newton's second law of motion, the acceleration of an object is dependent on the net force acting on it, not its mass. If the net force acting on both objects is the same, they will both experience the same acceleration, regardless of their mass. This means that a large mass object and a small mass object can have the same acceleration if the force acting on them is equal.
Which describes how the same force effects a small mass and a large mass?
The same force applied to a small mass will cause a larger acceleration compared to a large mass since acceleration is inversely proportional to mass (F=ma). This means the small mass will experience a greater change in velocity in response to the force compared to the large mass.
Describe how the same force affects a small mass and a large mass?
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 .
Which describes how the same force affects small mass and a large mass?
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.
The mass of most objects around you does not cause a force large enough to move objects toward each other because?
the mass of the object is too small
How can the sun have a large gravitational force on the earth but a small force on you?
Earth has more mass.
When you apply a tiny force to a tiny object or a large force to a large object what do you produce?
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 .
How do the accelerations compare if the same force is exerted first is on the large mass and then on a small mass?
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.
How can an object with a large mass have the same acceleration as a an object with an small mass?
According to Newton's second law of motion, the acceleration of an object is dependent on the net force acting on it, not its mass. If the net force acting on both objects is the same, they will both experience the same acceleration, regardless of their mass. This means that a large mass object and a small mass object can have the same acceleration if the force acting on them is equal.
Explain how a car with a large mass can have the same acceleration as a car with a small mass?
because the force the drives it
How can Gravity effectively change the force required to accelerate both a small mass and large mass objects to the same speed?
The force on a large mass is greater, but it requires a larger force to accelerate a larger mass so the aceleration becomes the same. Force = mass x acceleration. But force of gravity =mg, therefore mg =ma, so a=g.
Why is more force needed to slide a large book across a table then to slide a small book across the same table?
A large book has more mass, which requires more force to be moved.
What objects exert gravitational force?
All objects with mass exert gravitational force. This means that everything in the universe, no matter how large or small, pulls on everything else with a force that depends on their masses and the distance between them.
