Yes,m0 deoends on velocity. according to relativity
m0=m/whole root under c^2-v^2
Velocity does depend on distance. Velocity = Distance/Time
Constant velocity gives zero acceleration, force is mass times acceleration, thus if acceleration is zero then force is zero and equilibrium is zero force. Equilibrium = zero force :0=f=ma=mdv/dt = m0 when velocity is constant dV/dt=0.
velocity and distance.
a moving objects momentum
Sometimes. If an object is falling, it's position relative to the Earth, will affect its velocity. Between two parallel electric plates, the velocity of an charged oil drop is independent of its position (more or less).
Velocity does depend on distance. Velocity = Distance/Time
the initial velocity of the rocket is zero.
The velocity does not depend on ther shower head, however it does depend on the cold mains pressure, a higher pressure will result in a higher velocity, and visa versa.
Constant velocity gives zero acceleration, force is mass times acceleration, thus if acceleration is zero then force is zero and equilibrium is zero force. Equilibrium = zero force :0=f=ma=mdv/dt = m0 when velocity is constant dV/dt=0.
no
Acceleration is change in velocity. So it depends on both velocity and time.
no
Its velocity and its mass.
Gravity and air resistence.
velocity and distance.
buang m0
The distance doesn't depend on the mass.