Answer :
Method 1:
Use the formula: Vf^2 - Vo^2 = 2aD
where Vf=0; Vo=11.2 m/s; D=34.7m, then solve for "a"
Once you know "a", use the formula D=Vot +1/2at^2 to solve for t.
It's a quadratic equation which can be a little hard to solve.
Method 2:
Since this a constant deceleration, you can find out the average speed during the deleration by using Vavg = (Vo + Vf)/2 where Vo=11.2m/s and Vf=0 to solve for Vavg.
Once you have Vavg and D=34.7m, you can solve for time, t=D/Vavg.
Use the formula: Vf^2 - Vo^2 = 2aD
where Vf=0; Vo=11.2 m/s; D=34.7m, then solve for "a"
Once you know "a", use the formula D=Vot +1/2at^2 to solve for t.
It's a quadratic equation which can be a little hard to solve.
Method 2:
Since this a constant deceleration, you can find out the average speed during the deleration by using Vavg = (Vo + Vf)/2 where Vo=11.2m/s and Vf=0 to solve for Vavg.
Once you have Vavg and D=34.7m, you can solve for time, t=D/Vavg.