Probability of an $AABbCC$ offspring given the cross $AaBbCc\times AaBbCc$, is my solution correct?

Question

So I have been working through the drills in the 26th edition of AP Biology Prep by The Princeton Review for fun when I came across this question in the Chapter 12 drill that I'm not really sure about my answer to:

4. Given the cross $AaBbCc\times AaBbCc$, what is the probability of having an $AABbCC$ offspring?
   
   (A) $\dfrac14$
   
   (B) $\dfrac18$
   
   (C) $\dfrac1{16}$
   
   (D) $\dfrac1{32}$

Here's my thinking:

I can draw up 3 Punnett squares to calculate the probability of having an $AA$, then a $Bb$, and finally a $CC$ offspring, as then due to the law of probability, I can then multiply these probabilities together to get my final answer, right?

So we have the three Punnett squares: $$ \begin{array}{c|c|c|} & A & a \\ \hline A & AA & Aa \\ \hline a & Aa & aa \\ \hline \end{array}\\ \\ \begin{array}{c|c|c|} & B & b \\ \hline B & BB & Bb \\ \hline b & Bb & bb \\ \hline \end{array}\\ \\ \begin{array}{c|c|c|} & C & c \\ \hline C & CC & Cc \\ \hline c & Cc & cc \\ \hline \end{array} $$

So from our Punnett squares, we have a 25% chance of the offspring having the AA gene, 25%+25%=50% chance of the offspring having the Bb gene, and then a 25% chance of the offspring having the CC gene.

So, due to these observations, the probability of this cross resulting in an $AABbCC$ offspring should be $1/4\times1/2\times1/4=1/32$, and (D) is the correct answer.

My question is: Is my thinking correct, or is my answer wrong, and why if so?

Answer 1

Your thinking is indeed correct. Just from probability, if you know the odds of 3 separate events, multiplying them together will give you the % chance of all 3 occurring. Putting this whole thing into a single punnet square is also possible which gives us a 2/64 chance, or 1/32 as the answer choice says. If I were taking an exam I would use the same thinking as you.