Velocity = 0 metres per second, ie immobility.
It stands for 'Under Saddle'
Year-Spring-Summer-Autumn=Winter
A = S squared is the formula for area of a square A = area S = lenght of side
The d stands for distance.
/s/
if you accelerate from a stand-still at 2m/s/s for four meters and end at 8m/s your average velocity is 5m/s. but at one meter the instantaneous velocity is 2m/s, at two meters it is 4m/s, three is 6m/s and four meters is 8m/s. 0meters 1meter 2meters 3meters 4meters |---------------|---------------|---------------|---------------| 0m/s 2m/s 4m/s 6m/s 8m/s
Acceleration is change in velocity over time. a = vf - vi/Δt, where a is acceleration, vf is final velocity, vi is initial velocity, and Δt is the time interval. For example, a car accelerates from rest to 15m/s in 5.9s. What its acceleration? vi = 0m/s, vf = 27m/s, Δt = 5.9s, a = ? a = 27m/s - 0m/s/5.9s = 4.6m/s/s = 4.6m/s2
Pins Knocked Down In A Strike
2mn - 2mt + 2sn - 2st = 0Divide both sides of the equation by 2:mn - mt + sn - st = 0m (n - t) +s (n - t) = 0(m + s) (n - t) = 0That's as far as you can go with the information given.
Acceleration = (change in speed) divided by (time interval).A = 5/4 = 1.25 m/s2
a=9.8m\s^2 u=0m\s s=228m using s=1\2at^2 ans=6.82seconds IF THERE IS NO BUOYANT FORCE
Use the equation vf = vi + gt, where vf is final velocity, vi is initial velocity, g is acceleration due to gravity, and t is time.Known:vf = 0m/sg = -9.8m/s2t = 6sUnknown:viEquation:vf = vi + gtSolution:vi = vf - gtvi = 0m/s - (-9.8m/s2)(6s) = 58.8m/s = 60m/s (rounded to 1 significant figure)