Lesson 17

Systems of Linear Equations and Their Solutions

Problem 1

Here is a system of equations: \(\begin{cases} 3x-y=17 \\ x+4y=10 \\ \end{cases}\)

  1. Solve the system by graphing the equations (by hand or using technology).
  2. Explain how you could tell, without graphing, that there is only one solution to the system.

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

Problem 2

Consider this system of linear equations: \(\begin{cases} y = \frac45x - 3 \\ y = \frac45x + 1 \end{cases}\)

  1. Without graphing, determine how many solutions you would expect this system of equations to have. Explain your reasoning.
  2. Try solving the system of equations algebraically and describe the result that you get. Does it match your prediction?

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

Problem 3

How many solutions does this system of equations have? Explain how you know.

\(\displaystyle \begin{cases} 9x-3y=\text-6\\ 5y=15x+10\\ \end{cases}\)

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

Problem 4

Select all systems of equations that have no solutions.

A:

\(\begin{cases} y=5-3x\\ y=\text-3x+4\\ \end{cases}\)

B:

\(\begin{cases} y=4x-1\\ 4y=16x-4\\ \end{cases}\)

C:

\(\begin{cases} 5x-2y=3\\ 10x-4y=6\\ \end{cases}\)

D:

\(\begin{cases} 3x+7y=42\\ 6x+14y=50\\ \end{cases}\)

E:

\(\begin{cases} y=5+2x\\ y=5x+2\\ \end{cases}\)

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

Problem 5

Solve each system of equations without graphing.

  1. \(\begin{cases} 2v+6w=\text-36 \\ 5v+2w=1 \end{cases}\)

  2. \(\begin{cases} 6t-9u=10 \\ 2t+3u=4 \\ \end{cases}\)

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

(From Unit 2, Lesson 16.)

Problem 6

Select all the dot plots that appear to contain outliers.

A:
Dot plot from 0 to 18 by 1’s. Beginning at 0, number of dots above each increment is 0, 1, 2, 3, 4, 3, 2, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0.
B:
Dot plot from 0 to 14 by 1’s. Beginning at 0, number of dots above each increment is 0, 1, 2, 3, 4, 3, 2, 1, 0, 1, 2, 3, 2, 1, 0.
C:
Dot plot from 0 to 60 by 2.5’s. 1 dot above 5. 1 dot above 8. Zero dots between 8 and 40. 3 dots above 40. About 40 dots in the 44 to 58 range.
D:
Dot plot from 0 to 28 by 1’s. From 0 to 6, number of dots above each increment is 0, 2, 2, 3, 3, 2, 2. There are zero dots between 7 to 25. There is 1 dot above 26. There are 0 dots above 27 and 28.
E:
Dot plot from 0 to 20 by 1’s. Beginning at 0, number of dots above each increment is 0, 0, 2, 5, 2, 6, 2, 2, 10, 0, 5, 4, 3, 5, 6, 3, 1, 0, 0, 0, 1.

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

(From Unit 1, Lesson 14.)

Problem 7

Here is a system of equations:  \(\begin{cases} \text-x + 6y= 9 \\  x+ 6y= \text-3 \\ \end{cases}\)

Would you rather use subtraction or addition to solve the system? Explain your reasoning.

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

(From Unit 2, Lesson 14.)

Problem 8

Here is a system of linear equations: \(\begin{cases} 6x-y=18 \\ 4x+2y=26 \\ \end{cases}\)

Select all the steps that would help to eliminate a variable and enable solving.

A:

Multiply the first equation by 2, then subtract the second equation from the result.

B:

Multiply the first equation by 4 and the second equation by 6, then subtract the resulting equations.

C:

Multiply the first equation by 2, then add the result to the second equation.

D:

Divide the second equation by 2, then add the result to the first equation.

E:

Multiply the second equation by 6, then subtract the result from the first equation.

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

(From Unit 2, Lesson 16.)

Problem 9

Consider this system of equations, which has one solution: \(\begin {cases} \begin{align} 2x+2y&=180\\0.1x+7y&=\hspace{2mm}78\end{align}\end{cases}\)

Here are some equivalent systems. Each one is a step in solving the original system.

Step 1:

\(\begin {cases} \begin{align} 7x+7y&=630\\0.1x+7y&=\hspace{2mm}78\end{align}\end{cases}\)

Step 2:

\(\begin {cases} \begin{align} 6.9x &=552\\0.1x+7y&=\hspace{2mm}78\end{align}\end{cases}\)

Step 3:

\(\begin {cases} \begin{align} x&=80\\0.1x+7y&=78\end{align}\end{cases}\)

  1. Look at the original system and the system in Step 1.

    1. What was done to the original system to get the system in Step 1?
    2. Explain why the system in Step 1 shares a solution with the original system.
  2. Look at the system in Step 1 and the system in Step 2.

    1. What was done to the system in Step 1 to get the system in Step 2?
    2. Explain why the system in Step 2 shares a solution with that in Step 1.
  3. What is the solution to the original system?

Solution

Teachers with a valid work email address can click here to register or sign in for free access to Formatted Solution.

(From Unit 2, Lesson 16.)