Download Geometry 2H Name: Similarity Part I

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Transcript
Geometry 2H
Name: ______________________________________
Similarity Part I - REVIEW
Period:
G-CO.2. Learning Target: I can represent
transformations in the plane; describe transformations as
functions that take points in the plane as inputs and give
other points as outputs. I can compare transformations
that preserve distance and angle to those that do not (e.g.,
translation versus horizontal stretch).
1
2
3
4
5
6
7
8
G.CO-10. Learning Target: I can prove that the
segment joining midpoints of two sides of a triangle is
parallel to and half the length of the third side.
2. The coordinates of the vertices of a triangle are
𝐾(2,4), 𝐿(βˆ’2, βˆ’2), and 𝑀(4, βˆ’2).
1. Use the triangle below,
(a) What are the coordinates of βˆ†π΄β€² 𝐡′ 𝐢 β€² , which is the
image of βˆ†π΄π΅πΆ under the transformation
(x, y) οƒ  (y, - x)
𝐴′ : __________ 𝐡′ : _________
(a) Find the midpoint of KL and LM . Label them R and
T.
𝐢′: __________
Explain how the lengths of the sides AND the
measurements of the angles for this triangle compare
with the original triangle.
__________________________________________
__________________________________________
(b) Calculate the slopes of RT and KM .
(c) Calculate the lengths of RT and KM .
(b) What are the coordinates of βˆ†π΄β€² 𝐡′𝐢 β€² , which is the
image of βˆ†π΄π΅πΆ (use the original figure again) under the
transformation (π‘₯, 𝑦) οƒ  (2π‘₯, 3𝑦)?
𝐴: ___________ 𝐡′ : _________
𝐢 β€² : __________
(d) Using your calculations from (a), (b), and (c), explain
the relationship between RT and KLM .
_____________________________________________
_____________________________________________
_____________________________________________
Explain how the lengths of the sides and the
measurements of the angles for this triangle compare
with the original triangle.
__________________________________________
1
Geometry 2H: Similarity Part I - REVIEW
G-SRT.1. Learning Target: I can verify the following
statements by making multiple examples: a dilation of a
line is parallel to the original line if the center of dilation
is not on the line; a dilation of a line segment changes the
length by a ratio given by the scale factor.
Name: ______________________________________
4. Given the segment shown below. If it is dilated about
Point U, complete the following statements:
3. Graph Μ…Μ…Μ…Μ…
𝐷𝐸 with 𝐷(βˆ’3, 6) and 𝐸(6, βˆ’6) on the
coordinate plane below.
Μ…Μ…Μ…Μ… using the origin as the center
(a) Graph the dilation of 𝐷𝐸
and a scale factor of
1
. Label the dilation Μ…Μ…Μ…Μ…Μ…Μ…
𝐷 β€² 𝐸 β€².
3
(a). The slopes of the segments will be
__________________________, so the segments will be
__________________________
(parallel, perpendicular, coinciding – choose one)
(b) Are the two segments parallel, perpendicular,
coinciding, or none of the above? ________________
(b) The segments will be _________________________
(c) Find the length of the DE and D ' E ' .
because _______________________________________
(congruent, similar, neither – choose one)
______________________________________________
(d) Find the value of the ratio of the length of the dilated
segment to the length of the original segment.
Geometry 2H: Similarity Part I - REVIEW
G-SRT.2.Learning Target: I can decide if two figures are
similar based on similarity transformations. I can use
similarity transformations to explain the meaning of
similar triangles as the equality of all corresponding pairs
of angles and the proportionality of all corresponding
pairs of sides.
Name: ______________________________________
7. Are the two triangles shown below similar? If so,
explain why and provide a similarity statement. If not,
explain why. Show all of your work.
5. Are the two triangles below similar? If so, explain why
and provide a similarity statement. If not, explain
why. Show all of your work.
_____________________________________________
_____________________________________________
G-SRT.3 Learning Target: I can establish the AA
criterion by looking at multiple examples using similarity
transformation of triangles.
_____________________________________________
8. For each of the following, explain whether the two
triangles are similar or not, and why.
_____________________________________________
(a)
_________________________
6. Are the two triangles shown below similar? If so,
explain why and provide a similarity statement. If not,
explain why. Show all of your work.
_________________________
_________________________
(b)
__________________________
__________________________
__________________________
_____________________________________________
_____________________________________________
(c)
__________________________
__________________________
__________________________