no
An object is raised higher, an object falls to a lower height, and the mass of an object above Earth's surface changes.
An object with a large mass is harder to get moving and harder to stop than an object with less mass. I hope this helps
Friction is still there and gravity causes that, if there is no gravity there is no friction. Only in your case friction is reduced because there is less drag because of the polished surface it is not harder to move along the surface. (assuming there is a force moving the object on top of the surface)
TRUEFriction is the reason more force is needed to push an object across a rough surface.
surface area
An object is raised higher, an object falls to a lower height, and the mass of an object above Earth's surface changes.
An object with a large mass is harder to get moving and harder to stop than an object with less mass. I hope this helps
if there is large mass its harder to get moving and harder to stop than an object that has less mass.
Speed
[object Object]
Friction is still there and gravity causes that, if there is no gravity there is no friction. Only in your case friction is reduced because there is less drag because of the polished surface it is not harder to move along the surface. (assuming there is a force moving the object on top of the surface)
what is the term used for the orbital period of an object with respect to the stars?
TRUEFriction is the reason more force is needed to push an object across a rough surface.
surface area
because a heaver object has more mounmentom
If an object falls in free fall, near a vertical surface, the surface won't influence the fall, so the acceleration will be about 9.8 meters per second squared.If you were thinking about a different kind of situation, please clarify.
You can change the surface of the object itself