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3. The figure below shows quadrilateral XWVU, which is a parallelogram. The 4 dashed red lines bisect each vertex (angle) of the parallelogram (angles X,W,V and U). So, X₁=X2, W1=W2, and so on. These dashed lines form quadrilateral EFGH inside of parallelogram XWVU. Prove that quadrilaterial EFGH is a parallelogram. W X G2 E U V

3. The figure below shows quadrilateral XWVU, which is a parallelogram. The 4 dashed red lines bisect each vertex (angle) of the parallelogram (angles X,W,V and U). So, X₁=X2, W1=W2, and so on. These dashed lines form quadrilateral EFGH inside of parallelogram XWVU. Prove that quadrilaterial EFGH is a parallelogram. W X G2 E U V

Elementary Geometry For College Students, 7e
Elementary Geometry For College Students, 7e
7th Edition
ISBN:9781337614085
Author:Alexander, Daniel C.; Koeberlein, Geralyn M.
Publisher:Alexander, Daniel C.; Koeberlein, Geralyn M.
ChapterP: Preliminary Concepts
SectionP.CT: Test
Problem 1CT
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Prove that quadrilateral EFGH is a parallelogram
3. The figure below shows quadrilateral XWVU, which is a parallelogram. The 4 dashed red lines bisect each vertex (angle) of the parallelogram (angles X,W,V and U). So, X₁=X2, W1=W2, and so on. These dashed lines form quadrilateral EFGH inside of parallelogram XWVU. Prove that quadrilaterial EFGH is a parallelogram. W X G2 E U V
Transcribed Image Text:3. The figure below shows quadrilateral XWVU, which is a parallelogram. The 4 dashed red lines bisect each vertex (angle) of the parallelogram (angles X,W,V and U). So, X₁=X2, W1=W2, and so on. These dashed lines form quadrilateral EFGH inside of parallelogram XWVU. Prove that quadrilaterial EFGH is a parallelogram. W X G2 E U V
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