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V=wr Where : V: Linear velocity w: Angular velocity r: Radius v = 600 m/m r=0.75m
The equation relating the velocity, wavelength and frequency of an electromagnetic wave is given byv=f λwhere v - velocity of the em wavef - frequency of the em wave andλ - wavelength of the em wave------------------------------------------------------------------------------------------------It is so important to know that velocity of light depends on the nature of the medium and does not depend on the wavelength.
In my view (u) stands for initial velocity and (v) stands for final velocity....:-p
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)
Motion in physics means velocity or acceleration. v = change in displacement/ change in time = s/t a = change in velocity/ change in time = v/t NB in Science it is important to use the correct symbol including case. v is velocity but V is volume; a is acceleration but A is the symbol given to Mass Number; Ar is relative mass; t is time but T is temperature
V is foe vendetta
if by 'you', you mean 'u' then u is the initial velocity v is the final velocity. you need to know the initial velocity in trajectory question (motion of an object through the air) to find height, acceleration, time etc.
it is the velocity (V) divided by the retardation of the contaminant. The velocity, V is different from the regular velocity (which is Discharge/Area). V = regular velocity/porosity
Velocity= v.
V=wr Where : V: Linear velocity w: Angular velocity r: Radius v = 600 m/m r=0.75m
You mean how are they related? Sting from rest condition, let V = velocity, T = time, S = distance, A = acceleration V = AT S = 1/2 AT^2 If there is no acceleration, at constant velocity S = VT
In physics, it means the horizontal velocity.
This formula is derived from one of the basic laws of motion; v = u + at : where 'v' is the final velocity, 'u' is the initial velocity, 'a' is the acceleration and 't' is the time v = u + at, therefore, v - u = at : a = (v - u) ÷ t
To calculate the velocity of an object you can use the formula v=d/t. v=velocity, d=distance, and t=time. You can also calculate velocity using a=change in v/change in t, v(final)=v(initial)+at, v(average)=v(final)+v(initial)/2, or v(final)^2=v(initial)^2+2ad, or p=mv.
v=dx/dt, where v= velocity x=displacement t=time
'v' generally refers to final velocity 'u' generally refers to initial velocity (because not everything starts from a motionless state, where 'u' would equal zero) It is better to annotate initial velocity as v0 (v-sub-zero or simply v-zero).
Where a = (v-u)/t a is acceleration, v is final velocity u is initial velocity t is time so, u=v-at