How close the object is.
and
the mass of both the object and the earth.
The gravitational attraction between two masses depends on their masses and the distance between them. If the masses are large and close together, they would have the greatest gravitational attraction.
"attraction"
Gravitational force is a force of attraction between two masses. It depends on the masses of the objects and the distance between them, as described by Newton's law of universal gravitation.
Gravitational force is the attraction between two masses due to their mass and distance from each other. It is responsible for keeping planets in orbit around the sun and objects on the Earth's surface. The strength of gravitational force decreases with distance between the masses.
Coulomb's force is the electrostatic force between charged particles, while gravitational force is the force of attraction between masses due to gravity. Coulomb's force depends on the amount of charge and distance between charges, while gravitational force depends on the masses and distance between objects. Coulomb's force is much stronger than gravitational force for everyday objects.
The gravitational attraction between two masses depends on their masses and the distance between them. If the masses are large and close together, they would have the greatest gravitational attraction.
"attraction"
Gravitational attraction between Earth and objects is determined by their mass and distance. The more massive an object is, the stronger the attraction. Similarly, the closer an object is to Earth, the stronger the gravitational pull.
Gravitational force is a force of attraction between two masses. It depends on the masses of the objects and the distance between them, as described by Newton's law of universal gravitation.
It helps to look at the formula for gravitational attraction. The force of gravity between two objects depends on:* The gravitational constant (which doesn't change) * The mass of the one object * The mass of the other object * The distance between them
Gravitational force is the attraction between two masses due to their mass and distance from each other. It is responsible for keeping planets in orbit around the sun and objects on the Earth's surface. The strength of gravitational force decreases with distance between the masses.
Coulomb's force is the electrostatic force between charged particles, while gravitational force is the force of attraction between masses due to gravity. Coulomb's force depends on the amount of charge and distance between charges, while gravitational force depends on the masses and distance between objects. Coulomb's force is much stronger than gravitational force for everyday objects.
Massive means there is a lot of mass - and gravitational attraction depends on the amount of mass. The amount of gravitational attraction also depends on the distance - i.e., the effect will be less at larger distances. The gravitational attraction between galaxies is strong enough to make galaxies in a galaxy cluster stay together - for example, in our Local Group.
No, the force of gravitational attraction between two objects depends on their masses and the distance between them. In this case, the gravitational force between the 10 kg object and the 5 kg object would be the greatest when they are closest together (0 meters), as the force increases as the distance between them decreases.
The force of attraction between the masses of your hand and notebook is gravitational force. This force depends on the masses of your hand and the notebook, as well as the distance between them, and is described by Newton's law of universal gravitation.
The force of attraction between bodies in the universe is primarily governed by gravity. Gravity is a universal force that attracts all objects with mass toward each other. The strength of this gravitational attraction depends on the masses of the bodies and the distance between them.
yes, because according to newton's law of universal gravitation, the gravitational attraction between two objects depends on the masses of both of them (and also on the distance between them)