Well, the formula for the gravitational force between any two objects says that
the force is proportional to the product of their masses, so we suppose that if
one of the objects had no mass, the product would be zero, and the force would
also have to be zero. Tell you what: You find us an object without mass, and
we can check it out together.
An object's size does not directly affect its gravity. Gravity depends on an object's mass and distance from other objects. However, larger objects with more mass tend to have stronger gravitational pulls.
Gravity affects an object's weight, which is the force of gravity acting on its mass. The mass of an object remains the same regardless of its location, but its weight can change depending on the strength of gravity. In areas with stronger gravity, objects will weigh more compared to areas with weaker gravitational pull.
Increasing the mass of a protective container does not affect the force of gravity acting on it. The force of gravity is determined by the mass of the planet or celestial body the container is on and the distance from the center of that body. The mass of an object does not affect the force of gravity acting on it.
Gravity has no effect on the mass of an object. However, an object's weight is the measurement of gravitational force on the object. The gravitational force on the moon for example is ~ 1/6 of that on Earth. A 300 kg object would weigh 3000N (Newtons) on the Earth but only weigh 500 N on the Moon but its mass would still be 300 kg on the Moon and on the Earth.
The factors that affect the way gravity acts on an object include the mass of the object and the distance between the object and the source of gravity (such as the Earth). Objects with more mass experience a stronger gravitational force, while objects that are farther apart experience a weaker gravitational force.
No, mass remains constant.
An object's size does not directly affect its gravity. Gravity depends on an object's mass and distance from other objects. However, larger objects with more mass tend to have stronger gravitational pulls.
Gravity affects an object's weight, which is the force of gravity acting on its mass. The mass of an object remains the same regardless of its location, but its weight can change depending on the strength of gravity. In areas with stronger gravity, objects will weigh more compared to areas with weaker gravitational pull.
The weight of an object on Earth is influenced by the mass of the object and the acceleration due to gravity. Weight is calculated by multiplying an object's mass by the acceleration due to gravity (9.8 m/s^2 on Earth). Therefore, variations in either mass or gravity can affect an object's weight on Earth.
Sin no
Yes Friction=Reaction force x COF Reaction force = mass x gravity So Friction=mass x gravity x COF ^ Change the mass, change the friction
Increasing the mass of a protective container does not affect the force of gravity acting on it. The force of gravity is determined by the mass of the planet or celestial body the container is on and the distance from the center of that body. The mass of an object does not affect the force of gravity acting on it.
Mass doesn't change. Mass the is substance of an object, moving it around won't affect how much mass it has, only adding or subtracting from the object would affect the quantity of mass. The weight would change because gravity is inversely proportional to distance but not the mass.
Gravity has no effect on the mass of an object. However, an object's weight is the measurement of gravitational force on the object. The gravitational force on the moon for example is ~ 1/6 of that on Earth. A 300 kg object would weigh 3000N (Newtons) on the Earth but only weigh 500 N on the Moon but its mass would still be 300 kg on the Moon and on the Earth.
No. Weight is the result of gravity acting on mass.
The factors that affect the way gravity acts on an object include the mass of the object and the distance between the object and the source of gravity (such as the Earth). Objects with more mass experience a stronger gravitational force, while objects that are farther apart experience a weaker gravitational force.
by size,volume and gravity