The thought process for this one, is first to draw a diagram of course. The question requires length, so to convert a vector to length, one effective way is the dot product, which the dot product of itself is equal to the distance squared, e.g. x • x = |x|^2. So in the R.T.P. I do that to make the final answer easier to find. Since the information contains 90°, and this probably only works for 90°, knowing that when a is perpendicular to c, a • c = 0, I quickly find vector AD in respect to a and c, this is also the reason why c is pointing outwards, because dot product only work this way and we don't want c to be negative. I believe the process for this is quite clear in my response.
Then as I initially planned, I tried to find the equation that is equivalent to |AD|^2, which is the dot product of the alternate equation for vector AD which I found earlier. I expanded this, since there is 1/4, I know I am probably in the right track, so I turned a • c to zero, because what I was initially going for. This left me |a|^2 + |c|^2, it may be a bit difficult to realise the use of Pythagoras here, but when you look back to the R.T.P. this should be fairly obvious. And after that, boom finished.
