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In zero gravity, the mass of an object does not effect the distance an object travels at all unless there is a constent force acting upon it. However, if it is in contact with another object, and gravity is what keeps the 2 or more objects touching each other, then mass will effect the distance it travels because of friction.
The only way that mass can have an effect on distance is if you're paying a taxi driver with mass.
An object's speed is (distance it travels) divided by (time to cover the distance). The object's mass doesn't matter at all.
Distance.
gravitational force is directly proportional to mass ie it increases with the increase in mass. it is indirectly proportional to distance ie it decreases with the increase in distance.
Mass as well as distance.
Mass & distance.
Mass and distance dont effect gravitational pull. Its always 9.8 m/s.
Mass and distance. The force decreases with the square of the distance, so mass has a lesser effect on the equation.
well what is the mass of the meteor, the distance it travels is unimportant
Mass & distance.
Mass and distance.