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9.E: Math Models and Geometry (Exercises)

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    7247
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    9.1 - Use a Problem Solving Strategy

    Approach Word Problems with a Positive Attitude

    In the following exercises, solve.

    1. How has your attitude towards solving word problems changed as a result of working through this chapter? Explain.
    2. Did the Problem Solving Strategy help you solve word problems in this chapter? Explain.

    Use a Problem Solving Strategy for Word Problems

    In the following exercises, solve using the problem-solving strategy for word problems. Remember to write a complete sentence to answer each question.

    1. Three-fourths of the people at a concert are children. If there are 87 children, what is the total number of people at the concert?
    2. There are 9 saxophone players in the band. The number of saxophone players is one less than twice the number of tuba players. Find the number of tuba players
    3. Reza was very sick and lost 15% of his original weight. He lost 27 pounds. What was his original weight?
    4. Dolores bought a crib on sale for $350. The sale price was 40% of the original price. What was the original price of the crib?

    Solve Number Problems

    In the following exercises, solve each number word problem.

    1. The sum of a number and three is forty-one. Find the number.
    2. Twice the difference of a number and ten is fifty-four. Find the number.
    3. One number is nine less than another. Their sum is twenty-seven. Find the numbers.
    4. The sum of two consecutive integers is −135. Find the numbers.

    9.2 - Solve Money Applications

    Solve Coin Word Problems

    In the following exercises, solve each coin word problem.

    1. Francie has $4.35 in dimes and quarters. The number of dimes is 5 more than the number of quarters. How many of each coin does she have?
    2. Scott has $0.39 in pennies and nickels. The number of pennies is 8 times the number of nickels. How many of each coin does he have?
    3. Paulette has $140 in $5 and $10 bills. The number of $10 bills is one less than twice the number of $5 bills. How many of each does she have?
    4. Lenny has $3.69 in pennies, dimes, and quarters. The number of pennies is 3 more than the number of dimes. The number of quarters is twice the number of dimes. How many of each coin does he have?

    Solve Ticket and Stamp Word Problems

    In the following exercises, solve each ticket or stamp word problem.

    1. A church luncheon made $842. Adult tickets cost $10 each and children’s tickets cost $6 each. The number of children was 12 more than twice the number of adults. How many of each ticket were sold?
    2. Tickets for a basketball game cost $2 for students and $5 for adults. The number of students was 3 less than 10 times the number of adults. The total amount of money from ticket sales was $619. How many of each ticket were sold?
    3. Ana spent $4.06 buying stamps. The number of $0.41 stamps she bought was 5 more than the number of $0.26 stamps. How many of each did she buy?
    4. Yumi spent $34.15 buying stamps. The number of $0.56 stamps she bought was 10 less than 4 times the number of $0.41 stamps. How many of each did she buy?

    9.3 - Use Properties of Angles, Triangles, and the Pythagorean Theorem

    Use Properties of Angles

    In the following exercises, solve using properties of angles.

    1. What is the supplement of a 48° angle?
    2. What is the complement of a 61° angle?
    3. Two angles are complementary. The smaller angle is 24° less than the larger angle. Find the measures of both angles.
    4. Two angles are supplementary. The larger angle is 45° more than the smaller angle. Find the measures of both angles.

    Use Properties of Triangles

    In the following exercises, solve using properties of triangles.

    1. The measures of two angles of a triangle are 22 and 85 degrees. Find the measure of the third angle.
    2. One angle of a right triangle measures 41.5 degrees. What is the measure of the other small angle?
    3. One angle of a triangle is 30° more than the smallest angle. The largest angle is the sum of the other angles. Find the measures of all three angles.
    4. One angle of a triangle is twice the measure of the smallest angle. The third angle is 60° more than the measure of the smallest angle. Find the measures of all three angles.

    In the following exercises, ΔABC is similar to ΔXYZ. Find the length of the indicated side.

    Two triangles are shown. Triangle ABC is on the left. The side across from A is labeled 21, across from B is b, and across from C is 11.2. Triangle XYZ is on the right. The side across from X is labeled x, across from Y is 10, and across from Z is 8.

    1. side x
    2. side b

    Use the Pythagorean Theorem

    In the following exercises, use the Pythagorean Theorem to find the length of the missing side. Round to the nearest tenth, if necessary

    1. A right triangle is shown. The base is labeled 10, the height is labeled 24.
    2. A right triangle is shown. The base is labeled 6, the height is labeled 8.
    3. A right triangle is shown. The height is labeled 15, the hypotenuse is labeled 17.
    4. A right triangle is shown. The height is labeled 15, the hypotenuse is labeled 25.
    5. A right triangle is shown. The height is labeled 7, the base is labeled 4.
    6. A right triangle is shown. The height is labeled 11, the base is labeled 10.

    In the following exercises, solve. Approximate to the nearest tenth, if necessary.

    1. Sergio needs to attach a wire to hold the antenna to the roof of his house, as shown in the figure. The antenna is 8 feet tall and Sergio has 10 feet of wire. How far from the base of the antenna can he attach the wire?

    An image of a house is shown. A 10-foot wire is going from the roof of the house to the ground. The wire hits the house at a height of 8 feet.

    1. Seong is building shelving in his garage. The shelves are 36 inches wide and 15 inches tall. He wants to put a diagonal brace across the back to stabilize the shelves, as shown. How long should the brace be?

    A rectangular shelf is shown, with a diagonal drawn in from the lower left corner to the upper right corner. The side is labeled 15 inches, the top is labeled 36 inches.

    9.4 - Use Properties of Rectangles, Triangles, and Trapezoids

    Understand Linear, Square, Cubic Measure

    In the following exercises, would you measure each item using linear, square, or cubic measure?

    1. amount of sand in a sandbag
    2. height of a tree
    3. size of a patio
    4. length of a highway

    In the following exercises, find (a) the perimeter (b) the area of each figure

    1. Three squares are shown, in a sideways L shape.
    2. Five squares are shown, in a T-shape. There are three squares across the top and three squares down.

    Use Properties of Rectangles

    In the following exercises, find the (a) perimeter (b) area of each rectangle

    1. The length of a rectangle is 42 meters and the width is 28 meters.
    2. The length of a rectangle is 36 feet and the width is 19 feet.
    3. A sidewalk in front of Kathy’s house is in the shape of a rectangle 4 feet wide by 45 feet long.
    4. A rectangular room is 16 feet wide by 12 feet long.

    In the following exercises, solve.

    1. Find the length of a rectangle with perimeter of 220 centimeters and width of 85 centimeters.
    2. Find the width of a rectangle with perimeter 39 and length 11.
    3. The area of a rectangle is 2356 square meters. The length is 38 meters. What is the width?
    4. The width of a rectangle is 45 centimeters. The area is 2700 square centimeters. What is the length?
    5. The length of a rectangle is 12 centimeters more than the width. The perimeter is 74 centimeters. Find the length and the width.
    6. The width of a rectangle is 3 more than twice the length. The perimeter is 96 inches. Find the length and the width.

    Use Properties of Triangles

    In the following exercises, solve using the properties of triangles.

    1. Find the area of a triangle with base 18 inches and height 15 inches.
    2. Find the area of a triangle with base 33 centimeters and height 21 centimeters.
    3. A triangular road sign has base 30 inches and height 40 inches. What is its area?
    4. If a triangular courtyard has sides 9 feet and 12 feet and the perimeter is 32 feet, how long is the third side?
    5. A tile in the shape of an isosceles triangle has a base of 6 inches. If the perimeter is 20 inches, find the length of each of the other sides.
    6. Find the length of each side of an equilateral triangle with perimeter of 81 yards.
    7. The perimeter of a triangle is 59 feet. One side of the triangle is 3 feet longer than the shortest side. The third side is 5 feet longer than the shortest side. Find the length of each side.
    8. One side of a triangle is three times the smallest side. The third side is 9 feet more than the shortest side. The perimeter is 39 feet. Find the lengths of all three sides.

    Use Properties of Trapezoids

    In the following exercises, solve using the properties of trapezoids.

    1. The height of a trapezoid is 8 feet and the bases are 11 and 14 feet. What is the area?
    2. The height of a trapezoid is 5 yards and the bases are 7 and 10 yards. What is the area?
    3. Find the area of the trapezoid with height 25 meters and bases 32.5 and 21.5 meters.
    4. A flag is shaped like a trapezoid with height 62 centimeters and the bases are 91.5 and 78.1 centimeters. What is the area of the flag?

    9.5 - Solve Geometry Applications: Circles and Irregular Figures

    Use Properties of Circle

    s In the following exercises, solve using the properties of circles. Round answers to the nearest hundredth.

    1. A circular mosaic has radius 3 meters. Find the (a) circumference (b) area of the mosaic
    2. A circular fountain has radius 8 feet. Find the (a) circumference (b) area of the fountain
    3. Find the diameter of a circle with circumference 150.72 inches.
    4. Find the radius of a circle with circumference 345.4 centimeters

    Find the Area of Irregular Figures

    In the following exercises, find the area of each shaded region.

    1. A geometric shape is shown, formed by two rectangles. The top is labeled 8. The width of the top rectangle is labeled 3. The right side of the figure is labeled 5. The width of the bottom rectangle is labeled 3.
    2. A geometric shape is shown. It is a U-shape. The base is labeled 5, the height 6. The horizontal and vertical lines at the top are labeled 2.
    3. A geometric shape is shown. It is formed by two triangles. The shared base of the two triangles is labeled 20. The height of each triangle is labeled 15.
    4. A geometric shape is shown. It is a trapezoid with a triangle attached to the top on the right side.  The height of the trapezoid is labeled 8, the bottom base is labeled 12, and the top is labeled 9. The height of the triangle is labeled 8.
    5. A geometric shape is shown. It is a rectangle with a semi-circle attached to the top. The base of the rectangle, also the diameter of the semi-circle, is labeled 10. The height of the rectangle is labeled 16.
    6. A geometric shape is shown. It is a triangle with a semicircle attached. The base of the triangle, also the diameter of the semi-circle, is labeled 5. The height of the triangle is also labeled 5.

    9.6 - Solve Geometry Applications: Volume and Surface Area

    Find Volume and Surface Area of Rectangular Solids

    In the following exercises, find the (a) volume (b) surface area of the rectangular solid

    1. a rectangular solid with length 14 centimeters, width 4.5 centimeters, and height 10 centimeters
    2. a cube with sides that are 3 feet long
    3. a cube of tofu with sides 2.5 inches
    4. a rectangular carton with length 32 inches, width 18 inches, and height 10 inches

    Find Volume and Surface Area of Spheres

    In the following exercises, find the (a) volume (b) surface area of the sphere.

    1. a sphere with radius 4 yards
    2. a sphere with radius 12 meters
    3. a baseball with radius 1.45 inches
    4. a soccer ball with radius 22 centimeters

    Find Volume and Surface Area of Cylinders

    In the following exercises, find the (a) volume (b) surface area of the cylinder

    1. a cylinder with radius 2 yards and height 6 yards
    2. a cylinder with diameter 18 inches and height 40 inches
    3. a juice can with diameter 8 centimeters and height 15 centimeters
    4. a cylindrical pylon with diameter 0.8 feet and height 2.5 feet

    Find Volume of Cones

    In the following exercises, find the volume of the cone.

    1. a cone with height 5 meters and radius 1 meter
    2. a cone with height 24 feet and radius 8 feet
    3. a cone-shaped water cup with diameter 2.6 inches and height 2.6 inches
    4. a cone-shaped pile of gravel with diameter 6 yards and height 5 yards

    9.7 - Solve a Formula for a Specific Variable

    Use the Distance, Rate, and Time Formula

    In the following exercises, solve using the formula for distance, rate, and time.

    1. A plane flew 4 hours at 380 miles per hour. What distance was covered?
    2. Gus rode his bike for \(1 \dfrac{1}{2}\) hours at 8 miles per hour. How far did he ride?
    3. Jack is driving from Bangor to Portland at a rate of 68 miles per hour. The distance is 107 miles. To the nearest tenth of an hour, how long will the trip take?
    4. Jasmine took the bus from Pittsburgh to Philadelphia. The distance is 305 miles and the trip took 5 hours. What was the speed of the bus?

    Solve a Formula for a Specific Variable

    In the following exercises, use the formula d = rt.

    1. Solve for t: (a) when d = 403 and r = 65 (b) in general
    2. Solve for r: (a) when d = 750 and t = 15 (b) in general

    In the following exercises, use the formula A = \(\dfrac{1}{2}\)bh.

    1. Solve for b: (a) when A = 416 and h = 32 (b) in general
    2. Solve for h: (a) when A = 48 and b = 8 (b) in general

    In the following exercises, use the formula I = Prt.

    1. Solve for the principal, P, for: (a) I = $720, r = 4%, t = 3 years (b) in general
    2. Solve for the time, t for: (a) I = $3630, P = $11,000, r = 5.5% (b) in general

    In the following exercises, solve.

    1. Solve the formula 6x + 5y = 20 for y: (a) when x = 0 (b) in general
    2. Solve the formula 2x + y = 15 for y: (a) when x = −5 (b) in general
    3. Solve a + b = 90 for a.
    4. Solve 180 = a + b + c for a.
    5. Solve the formula 4x + y = 17 for y.
    6. Solve the formula −3x + y = −6 for y.
    7. Solve the formula P = 2L + 2W for W.
    8. Solve the formula V = LWH for H.
    9. Describe how you have used two topics from this chapter in your life outside of math class during the past month.

    PRACTICE TEST

    1. Four-fifths of the people on a hike are children. If there are 12 children, what is the total number of people on the hike?
    2. The sum of 13 and twice a number is −19. Find the number.
    3. One number is 3 less than another number. Their sum is 65. Find the numbers.
    4. Bonita has $2.95 in dimes and quarters in her pocket. If she has 5 more dimes than quarters, how many of each coin does she have?
    5. At a concert, $1600 in tickets were sold. Adult tickets were $9 each and children’s tickets were $4 each. If the number of adult tickets was 30 fewer than twice the number of children’s tickets, how many of each kind were sold?
    6. Find the complement of a 52° angle.
    7. The measure of one angle of a triangle is twice the measure of the smallest angle. The measure of the third angle is 14 more than the measure of the smallest angle. Find the measures of all three angles.
    8. The perimeter of an equilateral triangle is 145 feet. Find the length of each side.
    9. ΔABC is similar to ΔXYZ. Find the length of side c.

    Two triangles are shown. Triangle XYZ is on the left. The side across from X is labeled 5, the side across from Y is labeled 10, the side across from Z is labeled 7. Triangle ABC is on the right. The side across from A is labeled 6, the side across from B is labeled 12, and the side across from C is labeled c.

    1. Find the length of the missing side. Round to the nearest tenth, if necessary.

    A right triangle is shown. The height is labeled 24 and the hypotenuse is labeled 26.

    1. Find the length of the missing side. Round to the nearest tenth, if necessary.

    A right triangle is shown. The base is labeled 6 and the height is labeled 9.

    1. A baseball diamond is shaped like a square with sides 90 feet long. How far is it from home plate to second base, as shown?

    A baseball diamond is shown. It is in the shape of a sideways square. The bottom corner is labeled Home and there is a dotted line to the top corner, labeled 2nd base. The right corner is labeled 1st base and the left corner is labeled 3rd base.

    1. The length of a rectangle is 2 feet more than five times the width. The perimeter is 40 feet. Find the dimensions of the rectangle.
    2. A triangular poster has base 80 centimeters and height 55 centimeters. Find the area of the poster.
    3. A trapezoid has height 14 inches and bases 20 inches and 23 inches. Find the area of the trapezoid.
    4. A circular pool has diameter 90 inches. What is its circumference? Round to the nearest tenth.
    5. Find the area of the shaded region. Round to the nearest tenth.

    A geometric shape is shown. It is a rectangle with a semi-circle attached on the left and a triangle attached on the right. The height of the rectangle, also the height of the triangle and the diameter of the semi-circle, is labeled 4. The base of the figure is labeled 10. The top of the rectangle is labeled 7.

    1. Find the volume of a rectangular room with width 12 feet, length 15 feet, and height 8 feet.
    2. A coffee can is shaped like a cylinder with height 7 inches and radius 5 inches. Find (a) the surface area and (b) the volume of the can. Round to the nearest tenth.
    3. A traffic cone has height 75 centimeters. The radius of the base is 20 centimeters. Find the volume of the cone. Round to the nearest tenth.
    4. Leon drove from his house in Cincinnati to his sister’s house in Cleveland. He drove at a uniform rate of 63 miles per hour and the trip took 4 hours. What was the distance?
    5. The Catalina Express takes \(1 \dfrac{1}{2}\) hours to travel from Long Beach to Catalina Island, a distance of 22 miles. To the nearest tenth, what is the speed of the boat?
    6. Use the formula I = Prt to solve for the principal, P, for: (a) I = $1380, r = 5%, t = 3 years (b) in general
    7. Solve the formula A = \(\dfrac{1}{2}\)bh for h: (a) when A = 1716 and b = 66 (b) in general
    8. Solve x + 5y = 14 for y.

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