Find any critical numbers of the function. (Enter your answers as a comma-separated list.)

I will assume you meant

g(t) = t √(6-t) = t(6-t)^(1/2)

g'(t) = t (1/2)(6-t)^(-1/2) (-1) + (6-t)^(1/2) using the product rule
= 3)t-4)/(2√(6-t) )
=0 for any max/min values of the function

t/(2(6-t)^(1/2) = (6-t)^(1/2)
t = 2(6-t)
t = 12 - 2t
3t = 12
t = 4
so g(4) = 4√(6-4) = 4√2

to see if there are any points of inflection
differentiate 3(t-4)/(2√(6-t) ) , set that result equal to zero and solve for t
(hint: there are no points of intersection)
You should get a second derivative of 3(t-8)/(4(6-t)^(3/2 )
which when you set equal to zero will give an answer of
t = 8
BUT, t=8 is outside the domain of our function, so ... No Solution.

y-intercepts ? , let t =0
y = 0√6 = 0 , the origin (0,0)

any t-intercepts?
t(6-t)^(1/2) = 0
t = 0 or t = 6

look at the graph .....
http://www.wolframalpha.com/input/?i=t%286-t%29%5E%281%2F2%29

ignore the imaginary part of the graph (the red line)
the point (4,4√2) is a maximum point