Gravity refers to a force of attraction between the mass of two objects and the distance from the center of masses.
If Objects A&B have the same mass, and C&D have the same mass.
And if the distance between the centers of mass from A to C is the same as from B to D.
Then the force of attraction between the objects due to gravity would be the same no matter what the composition is.
The force that pulls an object toward earth also pulls the earth toward the object.The two forces are equal. Together, we refer to them as the force of gravity.
The mass of an object depends on the materials out of which it is made.
This measurement is called weight. Weight is measured in Newtons (N). This is not the weight you refer to in general everyday life, what you are actually referring to is mass. Weight is the amount of force required to support an object against gravity.
You are referring to Albert Einstein's Theory of Gravity.
If you refer to the force of gravity, multiply the mass by the gravitational field, which - on Earth - is about 9.8 newton/kilogram.
That quantity is a force, whose magnitude we often refer to as the object's "weight".
That quantity is a force, whose magnitude we often refer to as the object's "weight".
The force that pulls an object toward earth also pulls the earth toward the object.The two forces are equal. Together, we refer to them as the force of gravity.
The mass of an object depends on the materials out of which it is made.
This measurement is called weight. Weight is measured in Newtons (N). This is not the weight you refer to in general everyday life, what you are actually referring to is mass. Weight is the amount of force required to support an object against gravity.
The gravitational forces associated with an object depend on the object's mass, but they don't depend at all on the substance the object is made of.
You are referring to Albert Einstein's Theory of Gravity.
The force that pulls an object toward earth also pulls the earth toward the object.The two forces are equal. Together, we refer to them as the force of gravity.
Any object with mass affects gravity
If you refer to the force of gravity, multiply the mass by the gravitational field, which - on Earth - is about 9.8 newton/kilogram.
No, but the centre of gravity need not be inside the object. Not unless Gravity is not a variable. But it is not possible for an object to not have a center of mass.
Weight is the force with which gravity attracts an object. It can be calculated as weight = mass x gravity; for example, a person with a mass of 100 kg., on Earth (gravity = 9.8 meter per second square), weighs 980 Newton.