Velocity is derived from position - it is defined as the rate of change of position. In symbols:
v = ds/dt
Where v = velocity, s = position, and t = time. For the case of constant velocity, this can also be written as:
v = (difference in position) / (time elapsed)
Velocity is a derived quantity. Speed is velocity without direction. Velocity is derived from distance and time.
Velocity is displacement per unit time. Therefore the units of velocity are derived units (ms-1)
The kinetic energy of anything is determined by the mass and velocity of the substance. This is represented in the equation: KE=(1/2)mv2
If the velocity is constant then it is enough to use the equation, s = vt. S- the displacement, t - time elapsed and v the uniform or constant velocity. If velocity changes, then acceleration is there in action. Hence the final velocity after time t will be given as v = u + at.
There is no special equation. But to fully specify a velocity, you need to know an object's speed as well as the direction in it moves.
Velocity is a derived quantity. Speed is velocity without direction. Velocity is derived from distance and time.
In Calculus, differentiation is when you apply the theorems to get the derived equation at a given rate, for example you have the velocity function and if you take its derivative, it will give you an acceleration function related to its velocity. Derivatives are often denoted as f'(x) or y'. Integration on the other hand is undoing differentiation. for ex, if you integrate acceleration equation, it will give you a velocity equation.
It is a derived unit. It measure distance traveled per unit of time. For example meter per second or m/s. Speed or velocity as it is sometimes called is derived from the units for distance and time.
Velocity is displacement per unit time. Therefore the units of velocity are derived units (ms-1)
Velocity is derived by dividing displacement with time in seconds
is the equation for flow velocity
Final Velocity- Initial Velocity Time
You have to solve Newton's equation ΣF=ma in order to find the velocity and displacement vectors.
The kinetic energy of anything is determined by the mass and velocity of the substance. This is represented in the equation: KE=(1/2)mv2
E=mc2 is derived from the equation for kinetic energy Ke = mv2. The mathematics and concepts of special and general relativity shows that the absolute maximum velocity anything can have is the speed of light. The maximum amount of energy anything can possess is simply calculated from its mass and this maximum velocity squared.
Velocity = Distance/Time V = d/t
Impulse