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SSAT Upper Level Math : SSAT Upper Level Quantitative (Math)

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All SSAT Upper Level Math Resources

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Example Questions

Example Question #2 : How To Find The Area Of A Rectangle

The base length of a parallelogram is equal to the side length of a square. The base length of the parallelogram is two times longer than its corresponding altitude. Compare the area of the parallelogram with the area of the square.

Possible Answers:

${Area_{(Square)}}=2\cdot {Area_{(Parallelogram)}}$

${Area_{(Square)}}={Area_{(Parallelogram)}}$

${Area_{(Square)}}=\frac{1}{2}\cdot {Area_{(Parallelogram)}}$

${Area_{(Square)}}=3\cdot {Area_{(Parallelogram)}}$

${Area_{(Square)}}=4\cdot {Area_{(Parallelogram)}}$

Correct answer:

${Area_{(Square)}}=2\cdot {Area_{(Parallelogram)}}$

Explanation:

The area of a parallelogram is given by:

Area=ba

Where is the base length and is the corresponding altitude. In this problem we have:

b=2a

$a=\frac{b}{2}$

So the area of the parallelogram would be:

$Area_{(Parallelogram)}=ba=b\times \frac{b}{2}=\frac{b^2}{2}$

The area of a square is given by:

Area=x^2

weher is the side length of a square. In this problem we have b=x , so we can write:

$Area _{(Square)}=x^2=b^2$

Then:

$\frac{Area_{(Parallelogram)}}{Area_{(Square)}}=\frac{\frac{b^2}{2}}{b^2}=\frac{1}{2}$

or:

${Area_{(Square)}}=2\cdot {Area_{(Parallelogram)}}$

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Example Question #3 : How To Find The Area Of A Rectangle

How many squares with the side length of 2 inches can be fitted in a rectangle with the width of 10 inches and height of 4 inches?

Possible Answers:

Correct answer:

Explanation:

Solution 1:

We can divide the rectangle width and height by the square side length and multiply the results:

rectangle width $\div$ square length = $10\div 2=5$

rectangle height $\div$ square length = $4\div 2=2$

$5\times 2=10$

Solution 2:

As the results of the division of rectangle width and height by the square length are integers and do not have a residual, we can say that the squares can be perfectly fitted in the rectangle. Now in order to find the number of squares we can divide the rectangle area by the square area:

Rectangle area = $4\times 10=40$ square inches

Square area = $2\times 2=4$ square inches

So we can get:

$40\div 4=10$

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Example Question #2 : How To Find The Area Of A Rectangle

A rectangle has the area of 80 square inches. The width of the rectangle is 2 inches longer that its height. Give the height of the rectangle.

Possible Answers:

Correct answer:

Explanation:

The area of a rectangle is given by multiplying the width times the height. That means:

Area=wh

where:

width and height.

We know that: $w=h+2\Rightarrow h=w-2$ . Substitube the in the area formula:

$Area=80=wh=(h+2)\times h\Rightarrow 80=h^2+2h\Rightarrow h^2+2h-80=0$

Now we should solve the equation for :

$h^2+2h-80=0\Rightarrow h=-1\pm \sqrt{1^2+1\times 80}=-1\pm \sqrt{81}=-1\pm 9$

The equation has two answers, one positive (h=8) and one negative (h=-10) . As the length is always positive, the correct answer is h=8 inches.

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Example Question #5 : How To Find The Area Of A Rectangle

A rectangle with a width of 6 inches has an area of 48 square inches. Give the sum of the lengths of the rectangle's diagonals.

Possible Answers:

$12\ inches$

$8\ inches$

$20\ inches$

$10\ inches$

$16\ inches$

Correct answer:

$20\ inches$

Explanation:

A rectangle has two congruent diagonals. A diagonal of a rectangle divides it into two identical right triangles. The diagonal of the rectangle is the hypotenuse of these triangles. We can use the Pythagorean Theorem to find the length of the diagonal if we know the width and height of the rectangle.

$Diagonal=\sqrt{w^2+h^2}$

where:

is the width of the rectangle
is the height of the rectangle

First, we find the height of the rectangle:

$h=\frac{area}{w}=\frac{48}{6}=8$

So we can write:

$Diagonal=\sqrt{w^2+h^2}=\sqrt{6^2+8^2}=\sqrt{36+64}=\sqrt{100}=10$ inches

As a rectangle has two diagonals with the same length, the sum of the diagonals is 10+10=20 inches.

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Example Question #1031 : Ssat Upper Level Quantitative (Math)

A rectangle has the width of t-1 and the diagonal length of t+1 . Give the area of the rectangle in terms of .

Possible Answers:

$2\sqrt{t}(t+1)$

$\sqrt{t}(t-1)$

$2\sqrt{t}(t-1)$

$\sqrt{t}(t+1)$

$4\sqrt{t}(t-1)$

Correct answer:

$2\sqrt{t}(t-1)$

Explanation:

First we need to find the height of the rectangle. Since the width and the diagonal lengths are known, we can use the Pythagorean Theorem to find the height of the rectangle:

$Diagonal=\sqrt{w^2+h^2}$

$t+1=\sqrt{w^{2}+(t-1)^{2}}$

$\left ( t+1 \right )^{2}=w^{2}+\left ( t-1 \right )^{2}$

So we have:

$w^2=(t+1)^2-(t-1)^{2}$

$\Rightarrow w^2=(t^2+2t+1)-(t^2-2t+1)=4t$

$\Rightarrow w=\sqrt{4t}=2\sqrt{t}$

So we can get:

$Area=wh=2\sqrt{t}(t-1)$

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Example Question #1032 : Ssat Upper Level Quantitative (Math)

The perimeter of a rectangle is 800 inches. The width of the rectangle is 60% of its length. What is the area of the rectangle?

Possible Answers:

$75,000\textrm{ in}^{2}$

$13,500\textrm{ in}^{2}$

$50,000\textrm{ in}^{2}$

$15,000\textrm{ in}^{2}$

$37,500 \textrm{ in}^{2}$

Correct answer:

$37,500 \textrm{ in}^{2}$

Explanation:

Let be the length of the rectangle. Then its width is 60% of this, or 0.60 L . The perimeter is the sum of the lengths of its sides, or

L + 0.60 L + L + 0.60 = 3.20 L ; we set this equal to 800 inches and solve for :

3.20 L = 800

$3.20 L \div 3.20 = 800 \div 3.20$

L = 250

The width is therefore

$0.60 \times 250 = 150$ .

The product of the length and width is the area:

$250 \times 150 = 37,500$ square inches.

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Example Question #4 : How To Find The Area Of A Rectangle

Rectangle A has length 40 inches and height 24 inches. Rectangle B has length 30 inches and height 28 inches. Rectangle C has length 72 inches, and its area is the mean of the areas of the other two rectangles. What is the height of Rectangle C?

Possible Answers:

$18\textrm{ in}$

$15\textrm{ in}$

$13\frac{1}{3}\textrm{ in}$

$12\frac{1}{2}\textrm{ in}$

$10\textrm{ in}$

Correct answer:

$12\frac{1}{2}\textrm{ in}$

Explanation:

The area of a rectangle is the product of the length and its height, Rectangle A has area $40 \times 24 = 960$ square inches; Rectangle B has area $30 \times 28 = 840$ square inches.

The area of Rectangle C is the mean of these areas, or

$\frac{960+840}{2} = 900$ square inches, so its height is this area divided by its length:

$900 \div 72 = 12 \frac{1}{2}$ inches.

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Example Question #9 : How To Find The Area Of A Rectangle

The area of a rectangle is square feet. The width of the rectangle is four-sevenths of its length. Give the length of the rectangle in inches in terms of .

Possible Answers:

$\frac{7K} {48}$

$\frac{ \sqrt{ 7K } }{24}$

$\frac{ \sqrt{ 7K } }{2}$

$6\sqrt{ 7K }$

21K

Correct answer:

$6\sqrt{ 7K }$

Explanation:

Let be the length in feet. Then the width of the rectangle in feet is four-sevenths of this, or $\frac{4}{7}L$ . The area is equal to the product of the length and the width, so set up this equation and solve for :

$\frac{4}{7}L \cdot L = K$

$\frac{4}{7}L ^{2}= K$

$\frac{7} {4}\cdot \frac{4}{7}L ^{2}= \frac{7} {4}\cdot K$

$L ^{2}= \frac{7K} {4}$

$L =\sqrt{ \frac{7K} {4}} =\frac{ \sqrt{ 7K } }{\sqrt{4}}=\frac{ \sqrt{ 7K } }{2}$

Since this is the length in feet, we multiply this by 12 to get the length in inches:

$\frac{ \sqrt{ 7K } }{2} \cdot 12 = 6\sqrt{ 7K }$

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Example Question #11 : How To Find The Area Of A Rectangle

Rectangle A has length 40 inches and height inches; Rectangle B has length 30 inches and height inches; Rectangle C has height inches, and its area is the sum of those of the other two rectangles. What is its length?

Possible Answers:

$22\frac{1}{2} \textrm{ in}$

$\frac{70H}{3} \textrm{ in}$

$\frac{45H}{2} \textrm{ in}$

$23\frac{1}{3} \textrm{ in}$

The correct answer is not among the other choices.

Correct answer:

The correct answer is not among the other choices.

Explanation:

The area of a rectangle is the product of the length and its height.

Rectangle A has area 40H square inches, and Rectangle B has an area of $30 \cdot 2H = 60 H$ square inches, so the sum of their areas is 40H + 60 H = 100 H square inches. This is the area of Rectangle C; divide it by height inches to get a length of

$\frac{100 H}{4H} = \frac{100}{4} = 25$ inches. This answer is not among the given choices.

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Example Question #12 : How To Find The Area Of A Rectangle

The perimeter of a rectangle is 490 centimeters. The width of the rectangle is three-fourths of its length. What is the area of the rectangle?

Possible Answers:

$19,600\textrm{ cm}^{2}$

$58,800 \textrm{ cm}^{2}$

$11,025 \textrm{ cm}^{2}$

$14,700 \textrm{ cm}^{2}$

$29,400 \textrm{ cm}^{2}$

Correct answer:

$14,700 \textrm{ cm}^{2}$

Explanation:

Let be the length of the rectangle. Then its width is three-fourths of this, or $\frac{3}{4} L$ . The perimeter is the sum of the lengths of its sides, or

$L + \frac{3}{4} L + L + \frac{3}{4} L = \frac{7}{2} L$ .

Set this equal to 490 centimeters and solve for :

$\frac{7}{2} L = 490$

$\frac{2} {7} \cdot \frac{7}{2} L =\frac{2} {7} \cdot 490$

L = 140

The length of the rectangle is 140 centimeters; the width is three-fourths of this, or

$\frac{3}{4} \times 140 = 105$ centimeters.

The area is the product of the length and the width:

$140 \times 105 = 14,700$ square centimeters.

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SSAT Upper Level Math : SSAT Upper Level Quantitative (Math)

Study concepts, example questions & explanations for SSAT Upper Level Math

All SSAT Upper Level Math Resources

Example Questions

Example Question #2 : How To Find The Area Of A Rectangle

Example Question #3 : How To Find The Area Of A Rectangle

Example Question #2 : How To Find The Area Of A Rectangle

Example Question #5 : How To Find The Area Of A Rectangle

Example Question #1031 : Ssat Upper Level Quantitative (Math)

Example Question #1032 : Ssat Upper Level Quantitative (Math)

Example Question #4 : How To Find The Area Of A Rectangle

Example Question #9 : How To Find The Area Of A Rectangle

Example Question #11 : How To Find The Area Of A Rectangle

Example Question #12 : How To Find The Area Of A Rectangle

All SSAT Upper Level Math Resources

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