No.
Gravity can be thought of as a force, but that is due to its effect on anything that
possesses mass and/or energy. The effect that gravity exerts on any object is
proportional to the amount of mass that is responsible for the presence of gravity
and is also proportional to the amount of mass possessed by the object experiencing
that gravitational presence.
Therefore a gravitational field will exert a greater 'force' on a greater mass. However,
mass also possesses the characteristic of inertia, which is a measure of resistance to
any change to a state of motion - which effectively is a resistance to the effect of
gravity. Inertia is also proportional to mass.
What this means is that the greater the mass, the greater the pull it experiences due
to gravity but at the same time, the greater is its resistance to that pull.
Hence all falling objects experience the same acceleration due to the effect of
gravity which is not the same as the force. All objects fall at the same rate.
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(Note: Gravity does not exert the same force on all objects, which is the reason
why big people "weigh" more than smaller people do on the same planet.)
This force is called gravity, and it depends on the mass of the objects and the distance between them. Gravity is responsible for objects falling to the ground and for keeping planets in orbit around the sun.
The force of gravity between two objects determines the strength of the gravitational attraction they exert on each other. This force influences the acceleration of free-falling objects, the weight of objects on Earth, and the orbits of planets around the Sun.
Objects that weigh less exert less downward force due to gravity compared to objects that weigh more. Gravity acts on all objects equally, causing them to fall at the same rate regardless of weight. However, weight is a measure of the force of gravity acting on an object's mass, so objects with more mass will have a greater weight and exert a greater force on a surface when supported.
Gravity is the force responsible for the motion of falling objects. All objects are attracted towards the center of the Earth by the force of gravity, causing them to accelerate towards the ground until they reach equilibrium or hit the ground.
Gravity exerts a force that pulls objects towards each other. This force is dependent on the masses of the objects and the distance between them.
This force is called gravity, and it depends on the mass of the objects and the distance between them. Gravity is responsible for objects falling to the ground and for keeping planets in orbit around the sun.
The force of gravity will accelerate the falling objects towards itself.
The force of gravity between two objects determines the strength of the gravitational attraction they exert on each other. This force influences the acceleration of free-falling objects, the weight of objects on Earth, and the orbits of planets around the Sun.
That would be "Gravity".
Objects that weigh less exert less downward force due to gravity compared to objects that weigh more. Gravity acts on all objects equally, causing them to fall at the same rate regardless of weight. However, weight is a measure of the force of gravity acting on an object's mass, so objects with more mass will have a greater weight and exert a greater force on a surface when supported.
gravity
Gravity is the force responsible for the motion of falling objects. All objects are attracted towards the center of the Earth by the force of gravity, causing them to accelerate towards the ground until they reach equilibrium or hit the ground.
Freefall this means the objects is falling through the air while gravity is pulling.
Gravity exerts a force that pulls objects towards each other. This force is dependent on the masses of the objects and the distance between them.
The force that pulls falling objects toward Earth is called gravity. It is a natural phenomenon that governs the motion of objects in the universe by attracting them towards each other.
GRAVITY... 2nd answer: The force that pulls all objects toward each other is gravity. The earth exerts the force of gravity on you, and you exert the force of gravity on the earth ( or your couch, dog, etc). We notice Earth's force of gravity because it is huge compared with the force of gravity of our bodies .... or the force of gravity of our bowling balls, and so forth.
The acceleration of falling objects is affected by gravity because gravity is the force that pulls objects toward the center of the Earth. As objects fall, they accelerate due to this gravitational force acting upon them, increasing their speed until they reach terminal velocity or the ground.