Gravity is the attractive force between two masses. The greater the mass, the stronger the attraction.
Gravitational force
The electrical force has the same form but different strength and can be attractive or repelling.
it would reduce by two squared, which is 4
The attractive force of matter is the gravitional forces between the two masses. The force of the attraction is inversely proportional to the square of the distance. You are pulling the Earth toward yous with the same proportionate attraction that the Earth is pulling you, relative to each of your own relative weight. See Cavendidh's experiment on the attraction of masses.
Gravity.
The gravitational force between the two 100kg masses is 16,681.511N
Gravity
The electrical force has the same form but different strength and can be attractive or repelling.
it would reduce by two squared, which is 4
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
The attractive force of matter is the gravitional forces between the two masses. The force of the attraction is inversely proportional to the square of the distance. You are pulling the Earth toward yous with the same proportionate attraction that the Earth is pulling you, relative to each of your own relative weight. See Cavendidh's experiment on the attraction of masses.
Gravity.
Assuming you mean a force: Among other things, the gravitational force is attractive, and electric and magnetic forces are sometimes attractive. Also, if there is a string, rope, rubber band, etc. connecting two objects, the tension in this rope will transmit a force between the objects.
Gravitational force.
The gravitational force between the two 100kg masses is 16,681.511N
Mass of a body is a positive quantity. The gravitational force between two masses is always attractive. Electric charge can be positive or negative or zero.
If the masses are not electrically charged, then the force between them is proportional to the product of their individual masses, and inversely proportional to the square of the distance between their centers of mass. If the masses are electrically charged, then the force between them is proportional to the product of the magnitudes of their individual charges, and inversely proportional to the square of the distance between the centers of their charges. The force is repulsive if the signs of their charges are the same, and attractive if the signs of their charges are opposite. There's also a component of gravitational force in there, which is always attractive, but the respective proportionality constants differ by a factor of about 1040 , so the gravitational component is usually relatively negligible.
Between two small masses and/or at long distance.