Mass and distance dont effect gravitational pull. Its always 9.8 m/s.
F=G.M1*m2/d^2 where m1 is the mass of earth m2 is the mass of mercury d is the distance between mercury and earth
You have the same mass anywhere, but you weigh more or less on a planet depending on the gravitaional pull of the planet. The more gravitational pull, the more you weigh. The gravitational pull depends on the size of the planet. The bigger the planet, the more gravitaional pull.
gravitaional pull
Gravity is the attraction between two or more bodies. It is propotional to their mass and inversely proportional to their distance.
The weight on an object is the gravitaional pull.
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.
If you are in an atmosphere with a gravitaional pull then you will want to use a balance, if not (like if you were in a place with no gravity) then you want to use a centrifuge.
by the gravitaional pull of the moon
yeagh.....diffenetly...since they also attract masses ,if we increase the distance the pull by the sun moon on the body decreases,then automatically the resutant woulb be increased yeagh.....diffenetly...since they also attract masses ,if we increase the distance the pull by the sun moon on the body decreases,then automatically the resutant woulb be increased
The moon does pull the earth. All bodies affect others according to their mass and distance
mass refers to the just measuring how much the object is or simply the quantity of matter contained in it weight refers to the measuring of the object with respect to the gravitational pull... we have the equation (netwton's law) force=mass*acceralation(a) weight =mass*gravitaional pull(constant)
The farther away the objects are the weaker the pull of gravity is. Also, the more massive an object is, the stronger the gravitional pull is.