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11.02 Parallel and perpendicular lines

Adaptive
Worksheet

Interactive practice questions

The equations $y=2x$y=2x, $y=2x+6$y=2x+6 and $y=2x-8$y=2x8 have been graphed on the same number plane:

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a

What do all of the equations have in common?

Their $y$y-intercept ($b$b)

A

Their slope ($m$m).

B

Their $x$x-intercept.

C
b

What do you notice about the graphs?

All graphs cut the $y$y-axis at the same point.

A

All graphs cut the $x$x-axis at the same point.

B

All graphs have the same angle of inclination.

C
c

What can you conclude from the answers above?

Equations with the same $x$x-intercept have graphs that have the same angle of inclination.

A

Equations with the same slope ($m$m) cut the $y$y-axis at the same point.

B

Equations with the same slope ($m$m) have graphs that have the same angle of inclination.

C

Equations with the same $y$y-intercept ($b$b) have graphs that have the same angle of inclination.

D
Medium
1min

Is the line $y=-8x-2$y=8x2 parallel to $y=9x+7$y=9x+7 ?

Easy
< 1min

Is the line $y=4x-1$y=4x1 parallel to $y=4x-6$y=4x6 ?

Easy
< 1min

Which lines are parallel to the line with equation $y=9x+2$y=9x+2?

Select the three that apply.

Easy
< 1min
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Outcomes

G.CO.D.12

Make formal geometric constructions with a variety of tools and methods (compass and straightedge, string, reflective devices, paper folding, dynamic geometric software, etc.). Copying a segment; copying an angle; bisecting a segment; bisecting an angle; constructing perpendicular lines, including the perpendicular bisector of a line segment; and constructing a line parallel to a given line through a point not on the line.

G.GPE.B.5

Prove the slope criteria for parallel and perpendicular lines and use them to solve geometric problems.

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