In the following, a max tree consists only of max nodes, whereas an expectimax tree consists of

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In the following, a "max" tree consists only of max nodes, whereas an "expectimax" tree consists of a max node at the root with alternating layers of chance and max nodes. At chance nodes, all outcome probabilities are nonzero. The goal is to find the value of the root with a bounded-depth search. For each of (a)-(f), either give an example or explain why this is impossible.

a. Assuming that leaf values are finite but unbounded, is pruning (as in alpha-beta) ever possible in a max tree?

b. Is pruning ever possible in an expectimax tree under the same conditions?

c. If leaf values are all nonnegative, is pruning ever possible in a max tree? Give an example, or explain why not.

d. If leaf values are all nonnegative, is pruning ever possible in an expectimax tree? Give an example, or explain why not.

e. If leaf values are all in the range [0, 1], is pruning ever possible in a max tree? Give an example, or explain why not.

f. If leaf values are all in the range [0, 1], is pruning ever possible in an expectimax tree?

g. Consider the outcomes of a chance node in an expectimax tree. Which of the following evaluation orders is most likely to yield pruning opportunities? 

(i) Lowest probability first 

(ii) Highest probability first 

(iii) Doesn't make any difference

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