Learning Objectives
- Solve direct translation applications
- Solve geometry applications
- Solve uniform motion applications
Be Prepared 4.2
Before you get started, take this readiness quiz.
- The sum of twice a number and nine is 31. Find the number.
If you missed this problem, review Example 2.15. - Twins Jon and Ron together earned $96,000 last year. Ron earned $8000 more than three times what Jon earned. How much did each of the twins earn?
If you missed this problem, review Example 2.19. - An express train and a local train leave Pittsburgh to travel to Washington, D.C. The express train can make the trip in four hours and the local train takes five hours for the trip. The speed of the express train is 12 miles per hour faster than the speed of the local train. Find the speed of both trains.
If you missed this problem, review Example 2.43.
Solve Direct Translation Applications
Systems of linear equations are very useful for solving applications. Some people find setting up word problems with two variables easier than setting them up with just one variable. To solve an application, we’ll first translate the words into a system of linear equations. Then we will decide the most convenient method to use, and then solve the system.
How To
Solve applications with systems of equations.
- Step 1. Read the problem. Make sure all the words and ideas are understood.
- Step 2. Identify what we are looking for.
- Step 3. Name what we are looking for. Choose variables to represent those quantities.
- Step 4. Translate into a system of equations.
- Step 5. Solve the system of equations using good algebra techniques.
- Step 6. Check the answer in the problem and make sure it makes sense.
- Step 7. Answer the question with a complete sentence.
We solved number problems with one variable earlier. Let’s see how differently it works using two variables.
Example 4.14
The sum of two numbers is zero. One number is nine less than the other. Find the numbers.
Solution
Step 1. Read the problem. | |
Step 2. Identify what we are looking for. | We are looking for two numbers. |
Step 3. Name what we are looking for. | Let the first number. the second number |
Step 4. Translate into a system of equations. | The sum of two numbers is zero. |
One number is nine less than the other. | |
The system is: | |
Step 5. Solve the system of equations. We will use substitution since the second equation is solved for n. |
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Substitute m − 9 for n in the first equation. | |
Solve for m. | |
Substitute into the second equation and then solve for n. |
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Step 6. Check the answer in the problem. | Do these numbers make sense in the problem? We will leave this to you! |
Step 7. Answer the question. | The numbers are and |
Try It 4.27
The sum of two numbers is 10. One number is 4 less than the other. Find the numbers.
Try It 4.28
The sum of two numbers is One number is 10 less than the other. Find the numbers.
Example 4.15
Heather has been offered two options for her salary as a trainer at the gym. Option A would pay her $25,000 plus $15 for each training session. Option B would pay her for each training session. How many training sessions would make the salary options equal?
Solution
Step 1. Read the problem. | |
Step 2. Identify what we are looking for. | We are looking for the number of training sessions that would make the pay equal. |
Step 3. Name what we are looking for. | Let Heather’s salary. the number of training sessions |
Step 4. Translate into a system of equations. | Option A would pay her $25,000 plus $15 for each training session. |
Option B would pay her $10,000 + $40 for each training session. |
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The system is shown. | |
Step 5. Solve the system of equations. We will use substitution. |
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Substitute 25,000 +15n for s in the second equation. |
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Solve for n. | |
Step 6. Check the answer. | Are 600 training sessions a year reasonable? Are the two options equal when n = 600? |
Step 7. Answer the question. | The salary options would be equal for 600 training sessions. |
Try It 4.29
Geraldine has been offered positions by two insurance companies. The first company pays a salary of $12,000 plus a commission of $100 for each policy sold. The second pays a salary of $20,000 plus a commission of $50 for each policy sold. How many policies would need to be sold to make the total pay the same?
Try It 4.30
Kenneth currently sells suits for company A at a salary of $22,000 plus a $10 commission for each suit sold. Company B offers him a position with a salary of $28,000 plus a $4 commission for each suit sold. How many suits would Kenneth need to sell for the options to be equal?
As you solve each application, remember to analyze which method of solving the system of equations would be most convenient.
Example 4.16
Translate to a system of equations and then solve:
When Jenna spent 10 minutes on the elliptical trainer and then did circuit training for 20 minutes, her fitness app says she burned 278 calories. When she spent 20 minutes on the elliptical trainer and 30 minutes circuit training she burned 473 calories. How many calories does she burn for each minute on the elliptical trainer? How many calories for each minute of circuit training?
Solution
Step 1. Read the problem. | |
Step 2. Identify what we are looking for. | We are looking for the number of calories burned each minute on the elliptical trainer and each minute of circuit training. |
Step 3. Name what we are looking for. | Let number of calories burned per minute on the elliptical trainer. number of calories burned per minute while circuit training |
Step 4. Translate into a system of equations. | 10 minutes on the elliptical and circuit training for 20 minutes, burned 278 calories |
20 minutes on the elliptical and 30 minutes of circuit training burned 473 calories |
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The system is: | |
Step 5. Solve the system of equations. | |
Multiply the first equation by −2 to get opposite coefficients of e. |
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Simplify and add the equations. Solve for c. |
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Substitute c = 8.3 into one of the original equations to solve for e. |
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Step 6. Check the answer in the problem. | Check the math on your own. |
Step 7. Answer the question. | Jenna burns 8.3 calories per minute circuit training and 11.2 calories per minute while on the elliptical trainer. |
Try It 4.31
Translate to a system of equations and then solve:
Mark went to the gym and did 40 minutes of Bikram hot yoga and 10 minutes of jumping jacks. He burned 510 calories. The next time he went to the gym, he did 30 minutes of Bikram hot yoga and 20 minutes of jumping jacks burning 470 calories. How many calories were burned for each minute of yoga? How many calories were burned for each minute of jumping jacks?
Try It 4.32
Translate to a system of equations and then solve:
Erin spent 30 minutes on the rowing machine and 20 minutes lifting weights at the gym and burned 430 calories. During her next visit to the gym she spent 50 minutes on the rowing machine and 10 minutes lifting weights and burned 600 calories. How many calories did she burn for each minutes on the rowing machine? How many calories did she burn for each minute of weight lifting?
Solve Geometry Applications
We will now solve geometry applications using systems of linear equations. We will need to add complementary angles and supplementary angles to our list some properties of angles.
The measures of two complementary angles add to 90 degrees. The measures of two supplementary angles add to 180 degrees.
Complementary and Supplementary Angles
Two angles are complementary if the sum of the measures of their angles is 90 degrees.
Two angles are supplementary if the sum of the measures of their angles is 180 degrees.
If two angles are complementary, we say that one angle is the complement of the other.
If two angles are supplementary, we say that one angle is the supplement of the other.
Example 4.17
Translate to a system of equations and then solve.
The difference of two complementary angles is 26 degrees. Find the measures of the angles.
Solution
Try It 4.33
Translate to a system of equations and then solve:
The difference of two complementary angles is 20 degrees. Find the measures of the angles.
Try It 4.34
Translate to a system of equations and then solve:
The difference of two complementary angles is 80 degrees. Find the measures of the angles.
In the next example, we remember that the measures of supplementary angles add to 180.
Example 4.18
Translate to a system of equations and then solve:
Two angles are supplementary. The measure of the larger angle is twelve degrees less than five times the measure of the smaller angle. Find the measures of both angles.
Solution
Step 1. Read the problem. | |
Step 2. Identify what we are looking for. | We are looking for measure of each angle. |
Step 3. Name what we are looking for. | Let the measure of the first angle. the measure of the second angle |
Step 4. Translate into a system of equations. | The angles are supplementary. |
The larger angle is twelve less than five times the smaller angle. |
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The system is shown: Step 5. Solve the system of equations substitution. |
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Substitute 5x − 12 for y in the first equation. Solve for x. |
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Substitute 32 for x in the second equation, then solve for y. |
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Step 6. Check the answer in the problem. | |
Step 7. Answer the question. | The angle measures are 148 and 32 degrees. |
Try It 4.35
Translate to a system of equations and then solve:
Two angles are supplementary. The measure of the larger angle is 12 degrees more than three times the smaller angle. Find the measures of the angles.
Try It 4.36
Translate to a system of equations and then solve:
Two angles are supplementary. The measure of the larger angle is 18 less than twice the measure of the smaller angle. Find the measures of the angles.
Recall that the angles of a triangle add up to 180 degrees. A right triangle has one angle that is 90 degrees. What does that tell us about the other two angles? In the next example we will be finding the measures of the other two angles.
Example 4.19
The measure of one of the small angles of a right triangle is ten more than three times the measure of the other small angle. Find the measures of both angles.
Solution
We will draw and label a figure.
Step 1. Read the problem. | |
Step 2. Identify what you are looking for. | We are looking for the measures of the angles. |
Step 3. Name what we are looking for. | Let the measure of the first angle. the measure of the second angle |
Step 4. Translate into a system of equations. | The measure of one of the small angles of a right triangle is ten more than three times the measure of the other small angle. |
The sum of the measures of the angles of a triangle is 180. | |
The system is shown. | |
Step 5. Solve the system of equations. We will use substitution since the first equation is solved for a. | |
Substitute for a in the second equation. | |
Solve for b. | |
Substitute into the first equation and then solve for a. | |
Step 6. Check the answer in the problem. | We will leave this to you! |
Step 7. Answer the question. | The measures of the small angles are 20 and 70 degrees. |
Try It 4.37
The measure of one of the small angles of a right triangle is 2 more than 3 times the measure of the other small angle. Find the measure of both angles.
Try It 4.38
The measure of one of the small angles of a right triangle is 18 less than twice the measure of the other small angle. Find the measure of both angles.
Often it is helpful when solving geometry applications to draw a picture to visualize the situation.
Example 4.20
Translate to a system of equations and then solve:
Randall has 125 feet of fencing to enclose the part of his backyard adjacent to his house. He will only need to fence around three sides, because the fourth side will be the wall of the house. He wants the length of the fenced yard (parallel to the house wall) to be 5 feet more than four times as long as the width. Find the length and the width.
Solution
Step 1. Read the problem. | |
Step 2. Identify what you are looking for. | We are looking for the length and width. |
Step 3. Name what we are looking for. | Let the length of the fenced yard. the width of the fenced yard |
Step 4. Translate into a system of equations. | One lenth and two widths equal 125. |
The length will be 5 feet more than four times the width. |
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The system is shown. Step 5. Solve The system of equations by substitution. |
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Substitute L = 4W + 5 into the first equation, then solve for W. |
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Substitute 20 for W in the second equation, then solve for L. |
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Step 6. Check the answer in the problem. |
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Step 7. Answer the equation. | The length is 85 feet and the width is 20 feet. |
Try It 4.39
Translate to a system of equations and then solve:
Mario wants to put a fence around the pool in his backyard. Since one side is adjacent to the house, he will only need to fence three sides. There are two long sides and the one shorter side is parallel to the house. He needs 155 feet of fencing to enclose the pool. The length of the long side is 10 feet less than twice the width. Find the length and width of the pool area to be enclosed.
Try It 4.40
Translate to a system of equations and then solve:
Alexis wants to build a rectangular dog run in her yard adjacent to her neighbor’s fence. She will use 136 feet of fencing to completely enclose the rectangular dog run. The length of the dog run along the neighbor’s fence will be 16 feet less than twice the width. Find the length and width of the dog run.
Solve uniform motion applications
We used a table to organize the information in uniform motion problems when we introduced them earlier. We’ll continue using the table here. The basic equation was where D is the distance traveled, r is the rate, and t is the time.
Our first example of a uniform motion application will be for a situation similar to some we have already seen, but now we can use two variables and two equations.
Example 4.21
Translate to a system of equations and then solve:
Joni left St. Louis on the interstate, driving west towards Denver at a speed of 65 miles per hour. Half an hour later, Kelly left St. Louis on the same route as Joni, driving 78 miles per hour. How long will it take Kelly to catch up to Joni?
Solution
A diagram is useful in helping us visualize the situation.
Identify and name what we are looking for. A chart will help us organize the data. We know the rates of both Joni and Kelly, and so we enter them in the chart. We are looking for the length of time Kelly, k, and Joni, j, will each drive.
Since we can fill in the Distance column.
Translate into a system of equations.
To make the system of equations, we must recognize that Kelly and Joni will drive the same distance. So,
Also, since Kelly left later, her time will be hour less than Joni’s time. So,
Try It 4.41
Translate to a system of equations and then solve:
Mitchell left Detroit on the interstate driving south towards Orlando at a speed of 60 miles per hour. Clark left Detroit 1 hour later traveling at a speed of 75 miles per hour, following the same route as Mitchell. How long will it take Clark to catch Mitchell?
Try It 4.42
Translate to a system of equations and then solve:
Charlie left his mother’s house traveling at an average speed of 36 miles per hour. His sister Sally left 15 minutes later traveling the same route at an average speed of 42 miles per hour. How long before Sally catches up to Charlie?
Many real-world applications of uniform motion arise because of the effects of currents—of water or air—on the actual speed of a vehicle. Cross-country airplane flights in the United States generally take longer going west than going east because of the prevailing wind currents.
Let’s take a look at a boat travelling on a river. Depending on which way the boat is going, the current of the water is either slowing it down or speeding it up.
The images below show how a river current affects the speed at which a boat is actually travelling. We’ll call the speed of the boat in still water b and the speed of the river current c.
The boat is going downstream, in the same direction as the river current. The current helps push the boat, so the boat’s actual speed is faster than its speed in still water. The actual speed at which the boat is moving is
Now, the boat is going upstream, opposite to the river current. The current is going against the boat, so the boat’s actual speed is slower than its speed in still water. The actual speed of the boat is
We’ll put some numbers to this situation in the next example.
Example 4.22
Translate to a system of equations and then solve.
A river cruise ship sailed 60 miles downstream for 4 hours and then took 5 hours sailing upstream to return to the dock. Find the speed of the ship in still water and the speed of the river current.
Solution
Read the problem. | This is a uniform motion problem and a picture will help us visualize the situation. |
Identify what we are looking for. | We are looking for the speed of the ship in still water and the speed of the current. |
Name what we are looking for. | Let the rate of the ship in still water. the rate of the current |
A chart will help us organize the information. The ship goes downstream and then upstream. Going downstream, the current helps the ship and so the ship's actual rate is s + c. Going upstream, the current slows the ship and so the actual rate is s − c. |
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Downstream it takes 4 hours. Upstream it takes 5 hours. Each way the distance is 60 miles. |
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Translate into a system of equations. Since rate times time is distance, we can write the system of equations. |
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Solve the system of equations. Distribute to put both equations in standard form, then solve by elimination. |
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Multiply the top equation by 5 and the bottom equation by 4. Add the equations, then solve for s. |
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Substitute s = 13.5 into of the original equations. |
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Check the answer in the problem. The downstream rate would be mph. In 4 hours the ship would travel miles. The upstream rate would be mph. In 5 hours the ship would travel miles. |
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Answer the question. | The rate of the ship is 13.5 mph and the rate of the current is 1.5 mph. |
Try It 4.43
Translate to a system of equations and then solve:
A Mississippi river boat cruise sailed 120 miles upstream for 12 hours and then took 10 hours to return to the dock. Find the speed of the river boat in still water and the speed of the river current.
Try It 4.44
Translate to a system of equations and then solve:
Jason paddled his canoe 24 miles upstream for 4 hours. It took him 3 hours to paddle back. Find the speed of the canoe in still water and the speed of the river current.
Wind currents affect airplane speeds in the same way as water currents affect boat speeds. We’ll see this in the next example. A wind current in the same direction as the plane is flying is called a tailwind. A wind current blowing against the direction of the plane is called a headwind.
Example 4.23
Translate to a system of equations and then solve:
A private jet can fly 1,095 miles in three hours with a tailwind but only 987 miles in three hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
Solution
Read the problem. | This is a uniform motion problem and a picture will help us visualize. |
Identify what we are looking for. | We are looking for the speed of the jet in still air and the speed of the wind. |
Name what we are looking for. | Let the speed of the jet in still air. the speed of the wind. |
A chart will help us organize the information. The jet makes two trips—one in a tailwind and one in a headwind. In a tailwind, the wind helps the jet and so the rate is j + w. In a headwind, the wind slows the jet and so the rate is j ‒ w. |
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Each trip takes 3 hours. In a tailwind the jet flies 1,095 miles. In a headwind the jet flies 987 miles. |
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Translate into a system of equations. Since rate times time is distance, we get the system of equations. |
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Solve the system of equations. Distribute, then solve by elimination. Add, and solve for j. |
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Substitute j = 347 into one of the original equations, then solve for w. |
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Check the answer in the problem. With the tailwind, the actual rate of the jet would be mph. In 3 hours the jet would travel miles Going into the headwind, the jet’s actual rate would be mph. In 3 hours the jet would travel miles. |
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Answer the question. | The rate of the jet is 347 mph and the rate of the wind is 18 mph. |
Try It 4.45
Translate to a system of equations and then solve:
A small jet can fly 1,325 miles in 5 hours with a tailwind but only 1,035 miles in 5 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
Try It 4.46
Translate to a system of equations and then solve:
A commercial jet can fly 1,728 miles in 4 hours with a tailwind but only 1,536 miles in 4 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
Media
Access this online resource for additional instruction and practice with systems of equations.
Section 4.2 Exercises
Practice Makes Perfect
Direct Translation Applications
In the following exercises, translate to a system of equations and solve.
The sum of two number is 15. One number is 3 less than the other. Find the numbers.
The sum of two number is −16. One number is 20 less than the other. Find the numbers.
The sum of two numbers is 65. Their difference is 25. Find the numbers.
The sum of two numbers is Their difference is Find the numbers.
Maxim has been offered positions by two car companies. The first company pays a salary of $10,000 plus a commission of $1000 for each car sold. The second pays a salary of $20,000 plus a commission of $500 for each car sold. How many cars would need to be sold to make the total pay the same?
Jackie has been offered positions by two cable companies. The first company pays a salary of $14,000 plus a commission of $100 for each cable package sold. The second pays a salary of $20,000 plus a commission of $25 for each cable package sold. How many cable packages would need to be sold to make the total pay the same?
Amara currently sells televisions for company A at a salary of $17,000 plus a $100 commission for each television she sells. Company B offers her a position with a salary of $29,000 plus a $20 commission for each television she sells. How televisions would Amara need to sell for the options to be equal?
Mitchell currently sells stoves for company A at a salary of $12,000 plus a $150 commission for each stove he sells. Company B offers him a position with a salary of $24,000 plus a $50 commission for each stove he sells. How many stoves would Mitchell need to sell for the options to be equal?
Two containers of gasoline hold a total of fifty gallons. The big container can hold ten gallons less than twice the small container. How many gallons does each container hold?
June needs 48 gallons of punch for a party and has two different coolers to carry it in. The bigger cooler is five times as large as the smaller cooler. How many gallons can each cooler hold?
Shelly spent 10 minutes jogging and 20 minutes cycling and burned 300 calories. The next day, Shelly swapped times, doing 20 minutes of jogging and 10 minutes of cycling and burned the same number of calories. How many calories were burned for each minute of jogging and how many for each minute of cycling?
Drew burned 1800 calories Friday playing one hour of basketball and canoeing for two hours. Saturday he spent two hours playing basketball and three hours canoeing and burned 3200 calories. How many calories did he burn per hour when playing basketball? How many calories did he burn per hour when canoeing?
Troy and Lisa were shopping for school supplies. Each purchased different quantities of the same notebook and thumb drive. Troy bought four notebooks and five thumb drives for $116. Lisa bought two notebooks and three thumb dives for $68. Find the cost of each notebook and each thumb drive.
Nancy bought seven pounds of oranges and three pounds of bananas for $17. Her husband later bought three pounds of oranges and six pounds of bananas for $12. What was the cost per pound of the oranges and the bananas?
Andrea is buying some new shirts and sweaters. She is able to buy 3 shirts and 2 sweaters for $114 or she is able to buy 2 shirts and 4 sweaters for $164. How much does a shirt cost? How much does a sweater cost?
Peter is buying office supplies. He is able to buy 3 packages of paper and 4 staplers for $40 or he is able to buy 5 packages of paper and 6 staplers for $62. How much does a package of paper cost? How much does a stapler cost?
The total amount of sodium in 2 hot dogs and 3 cups of cottage cheese is 4720 mg. The total amount of sodium in 5 hot dogs and 2 cups of cottage cheese is 6300 mg. How much sodium is in a hot dog? How much sodium is in a cup of cottage cheese?
The total number of calories in 2 hot dogs and 3 cups of cottage cheese is 960 calories. The total number of calories in 5 hot dogs and 2 cups of cottage cheese is 1190 calories. How many calories are in a hot dog? How many calories are in a cup of cottage cheese?
Molly is making strawberry infused water. For each ounce of strawberry juice, she uses three times as many ounces of water as juice. How many ounces of strawberry juice and how many ounces of water does she need to make 64 ounces of strawberry infused water?
Owen is making lemonade from concentrate. The number of quarts of water he needs is 4 times the number of quarts of concentrate. How many quarts of water and how many quarts of concentrate does Owen need to make 100 quarts of lemonade?
Solve Geometry Applications
In the following exercises, translate to a system of equations and solve.
The difference of two complementary angles is 55 degrees. Find the measures of the angles.
Two angles are complementary. The measure of the larger angle is twelve less than twice the measure of the smaller angle. Find the measures of both angles.
Two angles are complementary. The measure of the larger angle is ten more than four times the measure of the smaller angle. Find the measures of both angles.
The difference of two supplementary angles is 8 degrees. Find the measures of the angles.
Two angles are supplementary. The measure of the larger angle is four more than three times the measure of the smaller angle. Find the measures of both angles.
Two angles are supplementary. The measure of the larger angle is five less than four times the measure of the smaller angle. Find the measures of both angles.
The measure of one of the small angles of a right triangle is 14 more than 3 times the measure of the other small angle. Find the measure of both angles.
The measure of one of the small angles of a right triangle is 26 more than 3 times the measure of the other small angle. Find the measure of both angles.
The measure of one of the small angles of a right triangle is 15 less than twice the measure of the other small angle. Find the measure of both angles.
The measure of one of the small angles of a right triangle is 45 less than twice the measure of the other small angle. Find the measure of both angles.
Wayne is hanging a string of lights 45 feet long around the three sides of his patio, which is adjacent to his house. The length of his patio, the side along the house, is five feet longer than twice its width. Find the length and width of the patio.
Darrin is hanging 200 feet of Christmas garland on the three sides of fencing that enclose his front yard. The length is five feet less than three times the width. Find the length and width of the fencing.
A frame around a family portrait has a perimeter of 90 inches. The length is fifteen less than twice the width. Find the length and width of the frame.
The perimeter of a toddler play area is 100 feet. The length is ten more than three times the width. Find the length and width of the play area.
Solve Uniform Motion Applications
In the following exercises, translate to a system of equations and solve.
Sarah left Minneapolis heading east on the interstate at a speed of 60 mph. Her sister followed her on the same route, leaving two hours later and driving at a rate of 70 mph. How long will it take for Sarah’s sister to catch up to Sarah?
College roommates John and David were driving home to the same town for the holidays. John drove 55 mph, and David, who left an hour later, drove 60 mph. How long will it take for David to catch up to John?
At the end of spring break, Lucy left the beach and drove back towards home, driving at a rate of 40 mph. Lucy’s friend left the beach for home 30 minutes (half an hour) later, and drove 50 mph. How long did it take Lucy’s friend to catch up to Lucy?
Felecia left her home to visit her daughter driving 45 mph. Her husband waited for the dog sitter to arrive and left home twenty minutes (1/3 hour) later. He drove 55 mph to catch up to Felecia. How long before he reaches her?
The Jones family took a 12-mile canoe ride down the Indian River in two hours. After lunch, the return trip back up the river took three hours. Find the rate of the canoe in still water and the rate of the current.
A motor boat travels 60 miles down a river in three hours but takes five hours to return upstream. Find the rate of the boat in still water and the rate of the current.
A motor boat traveled 18 miles down a river in two hours but going back upstream, it took hours due to the current. Find the rate of the motor boat in still water and the rate of the current. (Round to the nearest hundredth.)
A river cruise boat sailed 80 miles down the Mississippi River for four hours. It took five hours to return. Find the rate of the cruise boat in still water and the rate of the current.
A small jet can fly 1072 miles in 4 hours with a tailwind but only 848 miles in 4 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
A small jet can fly 1435 miles in 5 hours with a tailwind but only 1,215 miles in 5 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
A commercial jet can fly 868 miles in 2 hours with a tailwind but only 792 miles in 2 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
A commercial jet can fly 1,320 miles in 3 hours with a tailwind but only 1170 miles in 3 hours into a headwind. Find the speed of the jet in still air and the speed of the wind.
Writing Exercises
Write an application problem similar to Example 4.14. Then translate to a system of equations and solve it.
Write a uniform motion problem similar to Example 4.15 that relates to where you live with your friends or family members. Then translate to a system of equations and solve it.
Self Check
ⓐ After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.
ⓑ After reviewing this checklist, what will you do to become confident for all objectives?