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The relationship between the mass of a planet and its relative strength of gravitational pull is that they are directly proportional. The equation for the force of gravity between two bodies is F = GMm/r^2, where F is the force of gravity, G is the gravitational constant, M is mass 1, m is mass 2, and r is the distance between the objects.
Force in Newtons = mass in kilograms * acceleration ( can be gravitational acceleration )F = maThe mathematical relationship between force and acceleration is directly proportional.
KE = 0.5 x m x v2, where m is mass in kg, and v is speed in m/s.
The mass of a black hole determines its "size" or diameter of the event horizon. The relationship between mass and radius (Schwarzchild radius) is described by a formula in which the size is proportional to the gravitational constant and mass of the black hole and inversely proportional to the square of the speed of light.
The gravitational force between two objects depends on the product of their masses.That means (mass #1) times (mass #2).If Mass-#1 is you, then the gravitational force between you and another object depends on the massof the other object.Since the earth has much more mass than the moon, the gravitational force between you and the earth islarger than the gravitational force between you and the moon.(The force also depends on the distance between the two objects. But you should already begetting the idea, without going into the other details.)
The greater the mass the stronger the gravitational pull
The gravitational force varies directly as the mass and inversely as the square of the distance.
directly proportional
The relative strength of its gravitational pull is directly proportional to the planet's mass.
Inertial mass is a quantitative measure of an object's resistance to the change of its speed. Gravitational mass is the property of the mass of an object that produces a gravitational field in the space surrounding the object.
The relationship between the mass of a planet and its relative strength of gravitational pull is that they are directly proportional. The equation for the force of gravity between two bodies is F = GMm/r^2, where F is the force of gravity, G is the gravitational constant, M is mass 1, m is mass 2, and r is the distance between the objects.
The relationship between mass and weight in a body is that weight is the gravitational force acting on an object due to its mass. Mass is a measure of the amount of matter in an object and is constant, whereas weight can vary depending on the strength of the gravitational field acting on the object.
The size of the gravitational force between two masses is directly proportional to the product of their masses.
On mass yes, on speed no.The formula for gravitational P.E. is: PE = mgh, that is, mass x gravity x height.On mass yes, on speed no.The formula for gravitational P.E. is: PE = mgh, that is, mass x gravity x height.On mass yes, on speed no.The formula for gravitational P.E. is: PE = mgh, that is, mass x gravity x height.On mass yes, on speed no.The formula for gravitational P.E. is: PE = mgh, that is, mass x gravity x height.
mass and distance form an inverse relationship when related to gravity. The larger the mass(es) the greater the gravitational pull. The closer the distance, the greater the gravitational pull.
mass is a characterstic property of any matter if a matter exits it must have mass by which it is pulled towards centre of earth bt gravitational force is a kind of attractive force which acts btween centre of mass of 2 or more masses
Force in Newtons = mass in kilograms * acceleration ( can be gravitational acceleration )F = maThe mathematical relationship between force and acceleration is directly proportional.