I agree with Integral above that you should do something yourself before asking for help and as Moonbear puts it:
1) Did you show your work? Homework helpers will not assist with any questions until you've shown your own effort on the problem. Remember, we help with homework, we don't do your homework. We already passed those classes, it's your turn to do so.
However, to get you started, I am going to solve the first part for you.
i. time of ascent = time of descent
This follows by simple symmetry. It can also be proved using algebra/calculus and geometry, but i'll skip that here.
Let us consider the motion of the ball after it has reached the topmost point [initial position] along the y-axis only. From here, it falls to the ground [the final position]. At the initial position, it has a velocity = 0 [in the y-direction]. An acceleration in the y-direction = 9.8 m/s² causes it to come down.
http://img150.imageshack.us/img150/7938/projectilefbd1fs1.jpg
So, we have:
<br />
s = -21.3~m<br />
<br />
a = -9.8~ms^{-2}<br />
<br />
u = 0<br />
<br />
t = ?<br />
Using s = ut + \frac{at^2}{2}, you get
<br />
t = 2.085~s<br />
This is the time of descent. The total time will be twice of this i.e. 4.16s as it shall include the time of ascent also.
Do note that all calculations are made along the y-axis only.
