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6-8 Accelerated 7 Unit 5 Lesson 14

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IM K-5 Math
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Lesson 14

14.1 Warm-up 14.2 Activity 14.3 Activity Student Lesson Summary Glossary

Unit 5, Lesson 14

Systems of Equations

Accelerated 7

14.1

Warm-up

Diego and Lin are drinking water.

Lin’s glass has 12 ounces and she drinks ounce per second.

Diego's glass has 20 ounces and he drinks ounce per second.

How long will it take Lin and Diego to finish their water?
Without graphing, explain what the graphs in this situation would look like. Think about slope, intercepts, axis labels, units, and intersection points to guide your thinking.
Discuss your description with your partner. If you disagree, work to reach an agreement.

14.2

Activity

There is a hiking trail near the town where Han and Jada live that starts at a parking lot and ends at a lake. Han and Jada both decide to hike from the parking lot to the lake and back, but they start their hikes at different times.

At the time that Han reaches the lake and starts to turn back, Jada is 0.6 miles away from the parking lot and hiking at a constant speed of 3.2 miles per hour toward the lake. Han’s distance, , from the parking lot can be expressed as , where represents the time in hours since he left the lake.

What is an equation for Jada’s distance from the parking lot as she heads toward the lake?
Draw both lines: one representing Han's equation and one representing Jada’s equation. It is important to be very precise! Be careful, work in pencil, and use a straightedge.

<p>Coordinate plane, origin O, with grid. Horizontal axis, time in hours, scale 0 to 1 point 75, by point 25’s. Vertical axis, distance from parking lot in miles, scale 0 to 5, by 1’s.</p>
Find the point where the 2 lines intersect each other. What are the coordinates of this point?
How can you check your coordinates using the equations?
What do the coordinates mean in this situation?
What has to be true about the relationship between these coordinates and Jada’s equation?
What has to be true about the relationship between these coordinates and Han’s equation?

14.3

Activity

A stack of small cups has a height, , in centimeters, of .

A stack of large cups has a height, , in centimeters, of .

Graph the equation for each type of cup on the same set of axes. Make sure to label the axes and decide on an appropriate scale.
For what number of cups will the two stacks have the same height?

Student Lesson Summary

A system of equations is a set of 2 or more equations, where the variables represent the same unknown values. For example, suppose that two different kinds of bamboo are planted at the same time. Plant A starts at 6 ft tall and grows at a constant rate of foot each day. Plant B starts at 3 ft tall and grows at a constant rate of foot each day. Because Plant B grows faster than Plant A, it will eventually be taller, but when?

We can write equations for Plant A and for Plant B, where represents the number of days after being planted, and represents height. We can write this system of equations.

Solving a system of equations means to find the values of and that make both equations true at the same time. One way we have seen to find the solution to a system of equations is to graph both lines and find the intersection point. The intersection point represents the pair of and values that makes both equations true.

Here is a graph for the bamboo example:

<p>Graph of two lines.</p><br>

The solution to this system of equations is , which means that both bamboo plants will be 9 feet tall after 12 days.

We have seen systems of equations that have no solutions, one solution, and infinitely many solutions.

When the lines do not intersect, there is no solution. (Lines that do not intersect are parallel.)
When the lines intersect once, there is one solution.
When the lines are right on top of each other, there are infinitely many solutions.

A system of equations is a set of 2 or more equations. Each equation has 2 or more variables. A solution to the system is values for the variables that make all the equations true.

These equations make up a system of equations:

The solution to this system is and . When these values are substituted for and , both equations are true: and .