SAT Math : Simplifying Expressions

Study concepts, example questions & explanations for SAT Math

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Example Questions

Example Question #21 : How To Simplify An Expression

Let x & y = |(y – x)(x – y)|. All of the following must be true EXCEPT:

Possible Answers:

–(x & y) = (–x& y

x & y = y & x

x & y = (–y(–x)

x & y = (–x(–y)

a2(x & y) = (ax(ay)

Correct answer:

–(x & y) = (–x& y

Explanation:

First, let's rewrite x & y in a form that is much easier to analyze.

x & y = |(y – x)(x – y)|. First, let's factor out –1 from the y – x term.

|(y – x)(x – y)| = |–(–y + x)(x – y)|

Notice that we can rewrite (–y + x) as (x – y)

|–(–y + x)(x – y)| = |–(x – y)(x – y)| = |–(x – y)2|.

Now, we can make use of the property of absolute values which states that |–a| = |a|.

|–(x – y)2| = |(x – y)2|

Lastly, notice that because (x – y)2 is never negative, we can remove the absolute value sign. This is because, in general, |a2| = a2.

|(x – y)2| = (x – y)2

To summarize, x & y = (x – y)2.

Next, let's go through each of the answer choices and determine if the left side equals the right side.

First, let's examine x & y = y & x.

We have already established that x & y = (x – y)2. This means that y & x = (y – x)2. We want to see if (x – y)2 = (y – x)2. Let's factor out a –1 from y – x.

(y – x)2 = ((–1)(–y + x))2 = ((–1)(x – y))2.

Remember that, according to an important property of exponents, (ab)c = acbc.

((–1)(x – y))2 = (–1)2(x – y)2 = (1)(x – y)2 = (x – y)2.

Thus, because y & x = (x – y)2, we can see that y & x = x & y. This answer choice can be eliminated.

Next, we will analyze x & y = (–x(–y). Again, our strategy will be to show whether or not (–x(–y) = (x – y)2

(–x(–y) = (–x – (–y))2 = (–x + y)2 = ((–1)(x – y))2 = (–1)2(x – y)2 = (x – y)2

Therefore, x & y = (–x(–y). We can eliminate this answer choice.

Next, we will look at x & y = (–y(–x).

(–y(–x) = (–y – (–x))2 = (–y + x)2 = (x – y)2

This means that x & y = (–y(–x), and we can eliminate this answer choice.

Let's now see if a2(x & y) = (ax(ay). We want to see if the left side equals the right. Remember that x & y = (x – y)2.

a2(x&y) = a2(x – y)2

Now, we want to see if (ax(ay) = a2(x – y)2.

(ax(ay) = (ax – ay)2 = (a(x – y))2 = a2(x – y)2.

Therefore, a2(x & y) = a2(x – y)2 .

By process of elimination, the answer must be –(x & y) = (–x& y. Let's see why.

–(x & y) = –(x – y)2

We need to see if (–x& y = –(x – y)2.

(–x& y = (–x – y)2 = (–1(y))2 = (–1)2(y)2 = (y)2, which doesn't have to equal –(x – y)2.

For example, let's let x = 1 and y = 2 and see if –(1 2) = (–1) 2

–(1 2) = –1(1 – 2)2 = –1(–1)2 = –1

(–1) 2 = (–1 – 2)2 = (–3)2 = 9, which doesn't equal –1.

The answer is –(x & y) = (–x& y.

Example Question #22 : How To Simplify An Expression

Let a, b, and c be nonzero numbers such that 2a = 4b, and 12b = 8c. Which of the following is equal to 3a?

Possible Answers:

4c

3c

12c

6c

8c

Correct answer:

4c

Explanation:

We are told that 2a = 4b and 12b = 8c. We are asked to find the value of a. All of the answer choices are in terms of c, so we will need to find a in terms of c. This means that we need to eliminate b somehow and create an equation with only a and c.

We know that 12b = 8c. If we can figure out how many a = 12b, then we can create an equation that contains only a and c by replacing 12b with some value of a.

The first equation tells us that 2a = 4b. If we multiply both sides by 3, then we will know how many a are equal to 12b.

3(2a) = 3(4b)

6a = 12b

This means that we can replace 12b with 6a in the equation 12b = 8c.

12b = 6a = 8c

6a = 8c

Now we have an equation with only a and c. However, we are ultimately asked to find 3a. If we were to multiply both sides of the equation by one-half, we would have 3a on the left side.

(1/2)6a = (1/2)8c

3a = 4c

The answer is 4c.

Example Question #23 : How To Simplify An Expression

The car you currently own will cost you $2,500 to repair, and a new car will cost $13,500. The new fuel-efficient car will save you $220 per month on gas compared to your current car. How many months of savings from the new car will it take to equal the difference in cost between buying a new car and repairing it?

Possible Answers:

35

50

40

25

45

Correct answer:

50

Explanation:

The difference between the price to repair the car or buy a new one is $11,000. You divide this by the monthly savings, $220, giving you 50 months. 

Example Question #2562 : Sat Mathematics

Simplify the following expression:

(xy)2 – x((4x)(y)– (4x)2) – 42x2

Possible Answers:

–3xy2 – 4x– 16x2

–3xy– 4x3

5x2y2 

3x2y+ 16x3 – 16x2

–3x2y– 16x3 – 16x2

Correct answer:

–3x2y– 16x3 – 16x2

Explanation:

To simplify this, we will want to use the correct order of operations. The mnemonic device PEMDAS is usually very helpful.

Parenthesis (1st)

Exponents (2nd)

Multiply, Divide (3rd)

Add, Subtract (4th)

PEMDAS tells us to evaluate parentheses first, then exponents. After exponents, we evaluate multiplication and division from left to right, and then we evaluate addition and subtraction from left to right.

Let's look at (xy)2 – x((4x)(y)– (4x)2) – 42x2

We want to start with parentheses first. We will simplify the (xy)2 by using the general rule of exponents, which states that (ab)c = acbc. Thus we can replace (xy)2 with x2y2.

x2y2 – x((4x)(y)– (4x)2) – 42x2

When we have parentheses within parentheses, we want to move from the innermost parentheses to the outermost. This means we will want to simplify the expression (4x)(y)– (4x)2 first, which becomes 4xy2 – 16x2. We can now replace (4x)(y)– (4x)2 with 4xy2 – 16x2 .

x2y2 – x(4xy2 – 16x2) – 42x2

In order to remove the last set of parentheses, we will need to distribute the x to  4xy2 – 16x2 . We will also make use of the property of exponents which states that abac = ab+c.

x2y2 – x(4xy2) – x(16x2 ) – 42x2
= x2y2 – 4x2y– 16x– 42x2

We now have the parentheses out of the way. We must now move on to the exponents. Really, the only exponent we need to simplify is –42, which is equal to –16. Remember that –42 = –(42), which is not the same as (–4)2.

x2y2 – 4x2y– 16x3 – 16x2

Now, we want to use addition and subtraction. We need to add or subtract any like terms. The only like terms we have are x2y2 and –4x2y2. When we combine those, we get –3x2y2

–3x2y– 16x3 – 16x2

The answer is –3x2y– 16x3 – 16x2 .

Example Question #24 : How To Simplify An Expression

(9x2 – 1) / (3x – 1) = 

Possible Answers:

3x

3x – 1

3x + 1

(3x – 1)2

3

Correct answer:

3x + 1

Explanation:

It's much easier to use factoring and canceling than it is to use long division for this problem. 9x2 – 1 is a difference of squares. The difference of squares formula is a2 – b2 = (a + b)(a – b). So 9x2 – 1 = (3x + 1)(3x – 1). Putting the numerator and denominator together, (9x2 – 1) / (3x – 1) = (3x + 1)(3x – 1) / (3x – 1) = 3x + 1.

Example Question #25 : How To Simplify An Expression

If ab = –8, and a+ b2 = 20, then what is (a – b)2?

Possible Answers:

4

36

64

40

16

Correct answer:

36

Explanation:

First, let's expand (a – b)using the FOIL method. 

(a – b)(a – b) = a2 – ab – ba + b2 = a2 – 2ab + b2

The value of a+ b2 is already given to us. We can manipulate the equation ab = –8 to determine the value of –2ab. Multiply both sides of the equation by –2.

–2ab = 16

We will now substitute the values of –2ab and abto find the value of (a – b)2.

(a – b)(a – b) = a2 – 2ab + b= 16 + 20 = 36

The answer is 36.

Example Question #2565 : Sat Mathematics

If 4x – 8y = 18, then what is the value of 4y – 2x?

Possible Answers:

27

–18

–9

9

18

Correct answer:

–9

Explanation:

We are told that 4x – 8y = 18, but we want to know the value of 4y – 2x. In order to do this, we want to manipulate the expression 4x – 8y until it looks like 4y – 2x. We want to go from 4x to –2x. In order to do this, we could divide both sides of the equation by –2. If we did this, then we would also go from –8y to 4y. In short, we can find the value of 4y – 2x if we divide both sides of the equation 4x – 8y = 18 by negative two.

4x – 8y = 18

\frac{4x-8y}{-2}=\frac{18}{-2}=-9

We can use the algebraic rule which states that \frac{a+b}{c}=\frac{a}{c}+\frac{b}{c}, as long as c is nonzero. We will also use the fact that –a + b = b – a.

\frac{4x-8y}{-2}=\frac{4x}{-2}+\frac{-8y}{-2}=-2x+4y=4y-2x=-9

The answer is –9.

Example Question #2566 : Sat Mathematics

Let \log \ 3=0.477 and \log \ 2=0.301

Find \log \ 6.

Possible Answers:

0.176

0.954

0.602

0.114

0.778

Correct answer:

0.778

Explanation:

Using the multiplication property of logarithms we getlog\ (xy)=log\ x + log\ y

Knowing 6=2\times 3 we get

log\ 6=log\ 2+log\ 3\ or\ 0.778

Example Question #791 : Algebra

The sum of the number of pennies and nickels equals 70 and the total dollar amount of the change equals $1.50. How many nickels and pennies are there?

Possible Answers:

60\ pennies,\ 10\ nickels

10\ pennies,\ 60\ nickels

20\ pennies,\ 50\ nickels

50\ pennies,\ 20\ nickels

None\ of\ the\ answers

Correct answer:

50\ pennies,\ 20\ nickels

Explanation:

Assume there are x pennies.  Hence the number of nickels is 70-x

Now you have to set up an equation for the dollar value of the pennies and nickels which will be x+5(70-x)=150

Now solving for x results in x=50 (number of pennies).  Hence the number of nickels will be 70-50=20.

Example Question #792 : Algebra

If , then solve

Possible Answers:

Correct answer:

Explanation:

To solve this problem we use the logarithm rule log (x^{n}) = n log(x)

log(32) = log (2^{5}) = 5 log(2) or

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