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The mass of the two objects and the distance between them control the force of gravity between them. The equation for the force of gravity between two objects is Fg=(GMm)/R2, so if two objects are very massive, the force will be greater, and if two objects are very close the force will be greater. The force of gravity is directly related to the mass of the objects and inversely related to the distance between them.the earth
Gravity is a force that attracts all objects to all other objects. The force is proportional to a quantity called the object's mass (if there is more mass, the attraction is greater), and inversely proportional to the square of the distance (that is, at greater distances the force is weaker).
Depending on the greater or less the mass is gravity's affect on the object is not applicable as gravity is a never ending motion which does nothing but keep objects intact on planets.
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. ========================= (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.)
Gravity exists wherever there is a body, whatever the mass. The greater the mass, the greater the gravity.
That have greater mass.
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.
weight is the effect of gravity acting on mass,the greater the mass the greater the effect on gravity will have on it therefore the greater the weight. eg. if the mass is 50kg and gravity is 10N the the weight is 500N,if the mass increases to 100kg the the weight would increase to 1000N
weight is the effect of gravity acting on mass,the greater the mass the greater the effect on gravity will have on it therefore the greater the weight. eg. if the mass is 50kg and gravity is 10N the the weight is 500N,if the mass increases to 100kg the the weight would increase to 1000N
When their masses are greater, and when their centers of mass are closer together.
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 mass of the two objects and the distance between them control the force of gravity between them. The equation for the force of gravity between two objects is Fg=(GMm)/R2, so if two objects are very massive, the force will be greater, and if two objects are very close the force will be greater. The force of gravity is directly related to the mass of the objects and inversely related to the distance between them.the earth
Gravity is a force that attracts all objects to all other objects. The force is proportional to a quantity called the object's mass (if there is more mass, the attraction is greater), and inversely proportional to the square of the distance (that is, at greater distances the force is weaker).
Gravity effects heavier objects. In other words the heavier the object is, the more gravity effects the object which makes it heavy.
Depending on the greater or less the mass is gravity's affect on the object is not applicable as gravity is a never ending motion which does nothing but keep objects intact on planets.
Gravity is not contained, but exerted -- it is a force of acceleration between material objects.But yes, the greater the mass, the greater the mutual attraction to other objects. The property of mass includes both gravity and a resistance to motion or reduction of motion by a force.
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. ========================= (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.)