physicswonder said:
I know that s = ut + 0.5at^2 is a simple equation to find distance.
Assuming that initial velocity does not equal zero, how do you find what time equals since my knowledge of quadratics does not seem to be helping.
For some reason, maybe because it was originally in German, we use S=(A*T^2)/2 which is just a little bit different way of writing your equation. So divide by A gives you S/A=T^2/2
Multiply both sides by 2 gives 2S/A=T^2, so (2S/A)^0.5=T.
So in the quarter mile(if you can stomach using feet) it would be 1320 times 2=2640, assume one g, 32 F/S/S, 2640/32=82.5, square root of that is 9.083 seconds to do the quarter mile assuming one g of constant acceleration. So if someone does 9 seconds in the quarter mile, he is averaging 1 g.
And using V=AT, 32 F/S/S * 9.083= 290 Feet per second at the end or times 1.4666 = about 198 miles per hour.
As for the non-zero velocity, make sure it is in the same units and just add the average velocity of acceleration, 1320/9.083=145 feet per second average, plus say, 88 f/s (starting the run at 60 mph) and adding them, average velocity is 233 f/s so 1320/233=~5.6 seconds. So add the average velocities and divide by the distance to give the time with some initial velocity.