Use Newton's law: f = k(m1 x m2)/d^2.
In Newton's law k=G
df/dm2 = Gm1/d2
df/dd = -2Gm1m2/d3
just simply take the first derivative with respect to the variable factor.
The gravitational attraction would be 9 times weaker, this is because gravity is dependent on the inverse square of the distance.
Gravitational forces between objects depend only on their masses and the distance between them. Velocity has no effect.
Mass and distance. The force decreases with the square of the distance, so mass has a lesser effect on the equation.
The gravitational attraction would b 9 times weaker because gravity is dependent on the inverse square of the distance.
If the distance between two masses is tripled, then the gravitational force between them becomes (1/32) = 1/9th as great as it started out.
The gravitational attraction would be 9 times weaker, this is because gravity is dependent on the inverse square of the distance.
since gravitational force is inversely propostional to the sq. Root of distance between them. When distance increases the gravitational force decreasses and it is vice versa.
Distance.
Yes. At a greater distance, the gravitational attraction between two objects is less.
The gravitational force is equal to mass1 x mass2 / (the square of the distance); all this must be multiplied with a constant, known as the gravitational constant.
Mass & distance.
G=m1*m2/d^2
The effect of dubling the massesa and halving the distance is to increase the gravitational force by a factor of 16.
If you increase the mass, you increase the gravitational force proportionally. If you increase the distance between two masses, you decrease the gravitational force between them by and amount proportional to the square of the distance.
Gravitational force depends only on an object's mass and its distance from the center of the earth. Its speed has no effect on the gravitational force.
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