You don't. Velocity is not directly related to mass, and you can't calculate velocity just from a displacement measurement. You need some more information.
Velocity is displacement/time.
force velocity displacement energy (has to have magnitude and direction)
if the body of mass of 1kg is thrown at velocity of 9.8m/s?
Momentum = (mass) times (velocity)mass = (Momentum) divided by (velocity)
position, displacement, time, velocity, acceleration, force, mass
Velocity is displacement/time.
force velocity displacement energy (has to have magnitude and direction)
if the body of mass of 1kg is thrown at velocity of 9.8m/s?
Momentum = (mass) times (velocity)mass = (Momentum) divided by (velocity)
position, displacement, time, velocity, acceleration, force, mass
no, velocity=displacement/time
velocity = displacement / time taken
Displacement and acceleration are zero at the instant the mass passes through its "rest" position ... the place where it sits motionless when it's not bouncing. Velocity is zero at the extremes of the bounce ... where the expansion and compression of the spring are maximum, and the mass reverses its direction of motion.
Kinetic energy is equal to one-half of the product of an object's mass and the square of its velocity. Velocity is change in displacement divided by time. If you have the kinetic energy and mass, you can calculate the velocity by taking the square root of the quotient of kinetic energy and mass, and thereby solving for the velocity.
Velocity is defined asv = dx/dtwhere:v is velocity;dx is displacement;and dt is elapsed time.Assuming velocity is constant, then displacement is calculated as:dx = v/dt.
Velocity is change in displacement over time.
If the displacement is not changing, the velocity is zero.