<meta http-equiv="refresh" content="1; url=/nojavascript/"> Problem-Solving Models ( Read ) | Algebra | CK-12 Foundation
Dismiss
Skip Navigation

Problem-Solving Models

%
Progress
Practice Problem-Solving Models
Practice
Progress
%
Practice Now
Understand the Problem-Solving Plan

Kevin finished looking at the pictures from Laila’s trip to Yellowstone National Park. He took a deep sigh.

“I didn’t do anything that exciting this summer,” he said with another sigh.

“I’m sure you did great stuff. What did you do? Tell me about it,” Laila said smiling.

“Well, the big thing that I did was to design and build a vegetable garden. It actually was quite cool, because I was working as a Junior Counselor at the Boys and Girls Club and so I had a bunch of seven year olds who helped me,” Kevin said.

“That is terrific.”

“You know, it really was. I designed the garden to fit in this corner of the play yard. We had an area of 6^\prime \times 12^\prime to work with, and then we wanted to plant broccoli, carrots, peas, squash, zucchini, peppers, eggplant and tomatoes. It actually involved a lot of math. We had to figure out the area of the land and then the kids wanted each vegetable to have an even spot in the garden,” Kevin explained.

Laila began thinking about this problem in her head.

It is time for you to do the same thing. There are several steps to this problem and to work through it, you will need to figure out a problem solving plan. After learning the information in this Concept, you should be ready to work it through.

Guidance

When making a plan to solve a problem, you may choose one or several strategies.

Act it Out

Make a Model

Try and Check

Look for a Pattern

Guess and check

Make a Table

Work Backward

Write an Equation

Write a Proportion

When you read a problem, it is helpful to underline any important information. Important information can include words that identify an operation. You can also identify key words such as distance, time, speed, area or perimeter. All of these parts help you to identify a problem and what the problem is asking you to solve.

Let's look at a situation.

Mollie is planning to meet a group of friends at the movies on Saturday night at 6:00 p.m. Mollie is in charge of driving a few friends to the movies. Mollie lives 15 minutes from Sara’s house. It takes 10 minutes to get from Sara’s house to Madison’s house. It is another 20 minutes to the movie theatre from Madison’s house. It takes Mollie one hour to get dressed and ready for the evening. At what time should Mollie begin to get ready for the evening?

Step 1: Read and Understand the Problem

Ask: What is the problem asking me to find out?

The problem is asking you to determine the time at which Mollie should begin getting ready for the evening if she is to be at the movies at 6:00 p.m. You must take in to consideration the amount of travel time to each of her friends houses and the amount of time it takes for Mollie to get dressed.

This problem involves time. We need to back up the time that it takes for Molly to get to the movie theater.

Step 2: Make a Plan

Mollie needs to be at the movies at 6:00 p.m. Work backward to determine the time Mollie should begin getting ready. If we work backwards, we will be able to help her figure out the time that she needs to get there.

Step 3: Solve the Problem

Time of Movie – Time to Dress – Time to Movies – Time to Madison’s – Time to Sara’s

6:00 – 1:00 – 0:20 – 0:10 – 0:15

5:00 – 0:20 – 0:10 – 0:15

4:40 – 0:10 – 0:15

4:30 – 0.15

4:15

With all that she has to do, Mollie should begin getting ready at 4:15 p.m.

Step 4: Check the Results

If Mollie begins getting dressed at 4:15 p.m. and takes 1 hour, she will be ready to leave at 5:15 p.m. Since it takes Mollie 15 minutes to get to Sara’s house, she’ll arrive at 5:30 p.m. 10 minutes later at 5:40 Mollie will arrive at Madison’s house. Since it takes 20 minutes to drive to the movies, Mollie will arrive at the movies promptly at 6:00 p.m.

Mollie needs to begin getting ready at 4:15 p.m.

Use this situation and answer each question.

For every day that Jesse harvested vegetables in the garden, he collected 4 pounds of vegetables.

Example A

If Jesse continued this for 45 days, how many total pounds of vegetables will he have collected?

Solution: 180 pounds

Example B

Write an equation to describe the situation in Example A.

Solution: 45x, x= number of days

Example C

If Jesse collected vegetables for 90 days, how many pounds would he gather at this same rate?

Solution: 360 pounds

Now back to the dilemma from the beginning of the Concept.

First, you need to find the area of the garden .

Area is found by using the formula l \times w .

You know that the length of the garden is 12 feet and the width of the garden is 6 feet. We can substitute those values into the formula and solve for the area of the garden.

A &= lw\\A &= 12(6)\\A &= 72 \ sq.feet

Notice that you need to label your answer in square feet because we are working with area.

To figure out how much area each vegetable was given, we can use mental math. Think about what we know.

The area of the garden is 72 sq. feet.

There are 8 vegetables being planted.

72 \div 8 = 9

Each vegetable was given 9 square feet.

Vocabulary

Perimeter
Perimeter is the distance around a two-dimensional figure.
Area
Area is the space within the perimeter of a two-dimensional figure.
Problem Solving
Problem solving is using key words and operations to solve mathematical dilemmas written in verbal language.

Guided Practice

Here is one for you to try on your own.

The bowling alley charges $12 for one person to play, $10 for the second person to play, $8 for the third to person to play, and so on. What is the total cost for a family of five to bowl? How much money does the family save bowling together rather than separately?

Step 1: Read and Understand the Problem

Ask: What is the problem asking me to do?

The problem is asking you to analyze the pattern to determine the cost for a family of five to bowl. After determining the cost of a family of five to bowl, determine the difference between the amount the family is spending and the amount it would cost for five individuals to play.

Step 2: Make a Plan

To better observe the pattern, organize the information on a table.

Family Member Cost to Play
1 $12
2 $10
3 $8

You can see that the cost to play decreases by two dollars for each additional family member.

Step 3: Solve the Problem

Continue the pattern for the fourth and fifth family members. Add the cost to play for each family member to determine the total cost. You can see that the total cost for a family of five is $40.

Family Member Cost to Play Total Cost
1 $12 $12
2 $10 $22
3 $8 $30
4 $6 $36
5 $4 $40

To determine the amount saved playing as a family, subtract the total cost for a family of five from the total cost for five individuals. The cost to play individually is $12, therefore the cost for five individuals is \$ 60 (\$12 \times 5) . $40 subtracted from $60 is $20.

\text{Cost to Play Individually} - \text{Cost to Play as a Family} = \text{Amount Saved}

\$ 60 - \$ 40 = \$ 20

The cost for a family of five to bowl is $40. A family of five saves $20 playing together rather than individually.

Step 4: Check the Results

By thinking back through the dilemma, you will see that the answer makes sense given the strategy that we selected.

Video Review

Khan Academy Problem Solving Plan 1

Explore More

Directions: Read each problem and then answer the questions following each problem.

At the end of a phone call home, Brad had $0.85. The initial cost of the phone call was $0.75 plus $0.12 per minute. If Brad spoke on the phone for 20 minutes, how much money did he have before making the phone call home?

  1. Should you use working backwards or writing a proportion for this problem?
  2. Why wouldn’t you use a proportion for this problem?
  3. You will need to multiply one part of this problem, which part?
  4. What equation could you write to solve this problem?
  5. How much money did Brad have before making the phone call?

Suppose you have $75 in your savings account. You plan to save an additional $25 per week. After how many weeks will you have saved $500?

  1. Which strategy makes the most sense look for a pattern or working backwards?
  2. What is the unknown quantity that you are trying to figure out?
  3. What equation can you use to solve this problem?
  4. How many weeks will it take to save $500.00?

An online music store charges $1.90 to download 2 songs. Determine the cost of downloading 13 songs.

  1. Which strategy would you use look for a pattern or use a proportion?
  2. Why would you use that method?
  3. What is the cost for the 13 songs?
  4. What would be the cost for double the songs?
  5. If the cost had been $2.25 per song, how much would 2 songs cost?
  6. What would be the cost for 4 songs?
  7. If six friends each downloaded four songs, how much would the total cost be?

Image Attributions

Explore More

Sign in to explore more, including practice questions and solutions for Problem-Solving Models.

Reviews

Please wait...
Please wait...

Original text