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The mass and the trajectory of the object affect the speed at which the object will roll.
An object can gain kinetic energy by accelerating or gravitic energy by increasing height, among other things.
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 other object would be drawn more strongly to the one with increased mass. But whether that influenced their motion would depend on the actual forces involved. Since gravity is a "mutual" attraction, the effect on the two-object system could vary in ways other than the increased net attraction.
Objects with the same charge repel each other.
The amount of mass of the object and other objects near by, as well as distance to the other objects.
The mass and the trajectory of the object affect the speed at which the object will roll.
Objects with the same charge repel each other.
An object can gain kinetic energy by accelerating or gravitic energy by increasing height, among other things.
Gravity effects heavier objects. In other words the heavier the object is, the more gravity effects the object which makes it heavy.
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 other object would be drawn more strongly to the one with increased mass. But whether that influenced their motion would depend on the actual forces involved. Since gravity is a "mutual" attraction, the effect on the two-object system could vary in ways other than the increased net attraction.
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.
Objects with the same charge repel each other.
Yes depending on how aerodynamic the object is will affect how the object will move so which ever object is more aerodynamic it will move faster than the other.
When dropped the mass of an object does not affect the rate at which it falls. The size and shape may affect the wind resistance which affects falling velocity but heavier objects will not fall faster than lighter objects with all other variables constant.
Every object in the universe exerts a gravitational pull on every other object in the universe. Most of the time, however, these forces are of inconsequential strength. For Venus, the most significant object of influence is the Sun.