To reduce the force of gravity for any given pair of objects, the objects must be at a greater distance from each other.
Gravity is a universal force that makes all objects attract themselves according to their mass and distance. With more mass, the attraction is greater. At a greater distance, the attraction is less.
yes on any object. Everything has some gravitational force, but the World is so large, making the force strong. That is why you would be lighter on the moon. The moon is smaller therefore less gravity, therefore you weigh less since weight is the amount of gravity acting on the object.
Yes. Everything has gravity. Larger and denser objects have more gravity than smaller objects that are less dense.
Gravity on the moon is one-sixth of that on Earth, so you will exert less force on the moon.
less
Yes, though the force of gravity extends infinitely, it does attract far objects less than near objects.
"Gravity" is a force between any two objects. This specific force depends on the masses (more mass --> more force), and on the distance between the objects (more distance --> less force).
More distance = less gravity. More mass = more gravity.
The greater the distance between two objects, the less the force of gravity.
.. have smaller masses and/or are farther apart.
Gravity is a universal force that makes all objects attract themselves according to their mass and distance. With more mass, the attraction is greater. At a greater distance, the attraction is less.
The force we are talking about is the force of gravity... which we usually denote with small g... its value on earth is approx. 9.8m/s2 or 32ft/s2. The force of gravity of moon is 1/8th to that of the earth...... This is due to this less force of gravity that we feel weightlessness on moon...
The gravity depends on the mass.
Increase mass, increase gravity. Increase distance, decrease gravity (although you never reach zero). The formula for calculating force of gravity is: Fg=(G*m1*m2)/d^2 where Fg is force of gravity, G is the universal gravity constant, m1 and m2 are the masses of the two objects, and d is the distance between the two objects
Gravity is the force of attraction between any tow objects. All objects have it and it's proportional to the mass of the objects and inversely proportional to the square of the distance between them.Strictly speaking, gravity only exists between two objects with mass, but since every (known) object has at least a relativistic mass, it works out to more or less the same thing.On the other hand, looking at the bigger picture . . . No mass ? No problem !You may substitute the mass of each object into the customary formula . . .F = G M1 M2 / R2and the result of the formula is the correct force, whether or not both objects have mass.
It is because there is less gravitational force on the moon.
yes on any object. Everything has some gravitational force, but the World is so large, making the force strong. That is why you would be lighter on the moon. The moon is smaller therefore less gravity, therefore you weigh less since weight is the amount of gravity acting on the object.