Question 201777
I  highly recommend changing subtractions to additions. (In fact in my remedial classes I <i>require</i> it.) My reasons:<ul><li>Addition is easier for most people</li><li>There are very subtle mistakes that can be made with subtractions.</li><li>Addition is Commutative. Subtraction is not. (Commutative means you can change the order as you please without changing the result.)</li><li>Addition is Associative. Subtraction is not. (Associative means you can change the grouping as you please without changing the result.)</li></ul>To change subtractions to additions, the rule is: "Subtraction is the same as Addition of the opposite." So we just need to be able to figure out what the "opposite" of something is.<br>
Changing the subtractions in 15x + 3(2x - 7) - 9(4 + 5x) gives:
16x + 3(2x + (-7)) + (-9)(4 +5x)
Now let's go through PEMDAS. P for parentheses. We have two sets of parentheses but we cannot add the terms in either one because they are not like terms.
E for exponents. We have no exponents.
MD for multiply and divide. We can multiply using the Distributive Property giving:
16x + 3*(2x) + 3*(-7) + (-9)(4) + (-9)*(5x)
and then
16x + 6x + (-21) + (-36) + (-45x)
AS for Add and Subtract. Reordering (using the Commutative Property) and Regrouping  (using the Associative Property), which we could not do if there was any subtractions, gives:
(16x + 6x + (-45x)) + ((-21) + (-36))
Adding we get:
-23x + (-57)
We've reached the end of PEMDAS and the end of your problem.<br>
If you try this problem without changing the subtractions to additions and you do not get -23x + (-57) (or something equal to it: -23x - 57 or -57 + (-23x) or -57 - 23x), then you've just shown yourself why you should start changing the subtractions.