i reckon that it is right because according to newtons third law it explain that when force is exert on another object it will react with same magnitude so it might be right that it can apply same magnitude force as it has been apply.
Yes it is. The gravitational force between two masses is mutual, i.e. equal in both directions.
Here's a cool idea: Turn the bathroom scale upside down, and step on it. Now you're weighing
the earth in your gravitational field. When I do that, the earth weighs 185 pounds on me.
No, there are slight differences.
No, there are slight differences.
No, there are slight differences.
No, there are slight differences.
It is the sun and the moon that pull the earth.
If they happen to pull in the same direction - that's when Earth, Sun, and Moon are all aligned - the tides are stronger than when they are at right angles.
No, there are slight differences.
The object would have the same mass as mass remains constant everywhere. On the other hand if it was weight it would change as weight = mass multiplied with gravitational force.
The Earth's gravitational force pulls the marble to the bottom of the glass. It is the same force that keeps our feet firmly on the ground.
Yes, because you attract the earth with the same gravitational force that the earth attracts you.
The term describing the measure of gravitational force acting on a mass is "weight". A brick may weigh 6 pounds on earth but the same brick will weigh only 1 pound on the moon. The mass is the same here or there, but the gravitational force on the moon is only one sixth of the gravitational force on earth.
yes...u dont weight the same in the moon,as in the earth ;) good luck! (:
If the Earth were a (homogeneous) sphere, the gravitational force on its surface would be the same everywhere. I think that the gravitational force is slightly larger at the equator (center bulging Earth). But you might not measure it because of the rotation of the Earth.
The earth is not perfect sphere therefore the radius differs from place to place and from Newton Gravitational law force is directly proportional to radius
The gravitational pull of the earth is pretty much the same anywhere between the poles and the equator creating a centripetal force pulling things in towards the earth.. However, the rotation of the planet results in an outward centrifugal force pushing things away from the earth. This force is greatest at the equator. Even though the gravitational pull is the same everywhere, the centrifugal force at the equator gives the impression of a very slightly lower gravitational pull.
9.8 or 10 Newtons to be exact. The gravitational force stays the same as long as you are on earth.
The force of gravitation attracting the earth and moon toward each other is exactly the same force on both bodies.Just as the force of gravitation that attracts you toward the earth is exactly the same as the force that attractsthe earth toward you.
The gravitational constant "G" is the same everywhere. The force of gravity on the moon, expressed as the acceleration of a falling body is 1.62 metres/sec2. compared with 9.81 m/s2 on the earth.
The force of gravity is the same everywhere in the universe. What do you mean exactly? You can calculate the force of gravity between any two objects with the following formular Mass times (multiplied by) Mass divided by distance squared.
The gravitational force from a planet on the sun is so small. For example, 1,000,000 Earths can fit in the sun. The mass of the sun is 333,000 times bigger than the Earth. It is the same way you on Earth. You have a gravitational force on the Earth but it is so small.
The force is the product of mass and acceleration thus F= ma, if a is the same for all objects then the gravitational force difference depends on the mass alone.
Commonly referred to as the object's "weight".Note: The object also exerts the same identical gravitational force on the earth.Earth
The Earth and the object exert a gravitational force on each other, but only the Earth's is big enough to measure. So, the formula for gravitational force include the distance from one body's surface to its center and the same for the other body. The length of the radius is directly proportional to the body's gravitational force.
In a gravitational situation, the forces are exactly equal in both directions.-- The Earth attracts the moon with a force that is exactly the same as the forcewith which the moon attracts the Earth.-- You attract the Earth with exactly the same amount of force as the Earth attracts you.-- Your weight on Earth is exactly the same as the Earth's weight on you.