Pull of gravity of earth increases with increase in mass of the object. This pull of gravity is called "Weight" of the body. But remember, this increase in pull does not results in increase in value of acceleration( called gravitational acceleration g). Because, according to Newton s second law of motion,
F=ma or a=g=F/m, as pull of earth "F" is increased, but along with it, mass"m" is also increased, so both things cancel the effect of each other and acceleration remains constant. That is why, value of gravitational acceleration "g" always stays constant.(9.8ms-2).
Gravity impacts different objects based on their mass and distance from a gravitational force. Objects with greater mass experience a stronger gravitational pull, causing them to attract other objects towards them. The force of gravity weakens with distance, so objects farther away experience less gravitational pull. Generally, gravity causes objects to be pulled towards each other, affecting their motion and interactions in the universe.
All objects with mass have gravity, as gravity is a fundamental force that exists between all objects with mass. However, the strength of gravity can vary depending on the mass of the object and the distance between objects.
No, mass and gravity are not the same. Mass refers to the amount of matter in an object, while gravity is a force that pulls objects with mass towards each other. Gravity is influenced by the mass of objects.
The force of gravity varies due to differences in mass and distance between objects. Objects with greater mass exert a stronger gravitational force, while the force weakens with increasing distance between objects according to the inverse square law. Thus, gravity is not the same everywhere due to varying masses and distances.
More mass --> more gravity.
Classically, gravity is proportional to mass (stationary gravitational mass).
No, the force of gravity increases as the mass of the object increases. force of gravity is a constant 9.8 meters/second^2 Terminal velocity will cause heavier objects to fall faster than lighter objects depending on their relative effective densities and shapes.
All objects with mass exert a gravitational force, but the force is determined by the mass of the objects and their distance from each other, not their size. So, it's the mass, not the size, that determines the strength of gravity.
Yes, gravity is a fundamental force of nature that affects objects with mass. Objects with mass are attracted to each other due to gravity, creating phenomena such as planetary motion and the acceleration of falling objects.
Gravity is the force that acts on all objects based on their mass. It is the force of attraction between two objects with mass, such as between the Earth and objects on its surface.
Yes. All objects that have mass are affected by gravity and the gravitational force varies with the masses of the objects.
Gravity does not have a 'charge'. It is, however, always attractive and never repulsive.