By heating it or compressing it.
Power = work / time. If the object is moved faster, the same work is divided by a smaller time; thus, more power is required.
Heat it, add more air or squash it
Increase the temperature.
add heat
yes-increase its mass
Force is mass x acceleration so in order to increase the acceleration without increasing the force, you must decrease the mass.
not if the object isn't move, no
Density = Mass / Volume To increase density, you could increase mass or reduce volume. To increase mass, you could use a different material (metal instead of plastic) to make the object. To decrease the volume, you could change its shape (square to round) or compress it (force all the air out if there is).
Increasing the weight of the object and the smoothness of the surface the object is on (the less smooth the more friction)
yes-increase its mass
Force is mass x acceleration so in order to increase the acceleration without increasing the force, you must decrease the mass.
Increasing the speed of an object will increase its momentum as well (momentum=mass*velocity).
not if the object isn't move, no
1)increasing the roughness of the surface 2)increasing the mass of the object
Density = Mass / Volume To increase density, you could increase mass or reduce volume. To increase mass, you could use a different material (metal instead of plastic) to make the object. To decrease the volume, you could change its shape (square to round) or compress it (force all the air out if there is).
yes
Increasing the weight of the object and the smoothness of the surface the object is on (the less smooth the more friction)
increased the velocity of the object
if you increase the mass of an object density is affected because now the object is MORE dense.
I'm reluctant to answer because the wording of the question suggests the person asking is looking for answers that meet undefined constraints. One way to increase the terminal velocity of a falling object is to drop it in a vacuum. Another is to drop it in a atmosphere of hydrogen. . 1. increase the mass, without increasing the drag coefficient. 2. Decrease the drag coefficient, without decreasing the mass.
On Earth, Gravitational Potential Energy (GPE) would increase with an increasing altitude.