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GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Given Kudos: 1053
GPA: 3.39
In the figure, each side of square ABCD has length 1, the length of li
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25 Nov 2021, 04:13
25 Nov 2021, 04:13
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66% (02:26) wrong based on 3 sessions
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In the figure, each side of square ABCD has length 1, the length of line Segment CE is 1, and the length of line segment BE is equal to the length of line segment DE. What is the area of the triangular region BCE?
A. 1/3
B. \(\frac{\sqrt{2}}{4}\)
C. 1/2
D. \(\frac{\sqrt{2}}{2}\)
E. 3/4
In the figure, each side of square ABCD has length 1, the length of li
[#permalink]
25 Nov 2021, 07:52
25 Nov 2021, 07:52
2
Attachment:
squareabcd.png [ 13.15 KiB | Viewed 1582 times ]
Join \(B\) and \(D\) to form line segment \(\overline{BD}\). Since \(BD\) is diagonal, length of \(BD = \sqrt{2}\)
Now extend line segment \(\overline{CE}\) downwards perpendicular to line segment \(\overline{BD}\) and let its point of intersection be \(F\)
By observation, \(Ar(BCE) = Ar(DCE)\) and \(Ar(BCE) + Ar(DCE) = Ar(BCDE) \Rightarrow Ar(BCDE) = 2Ar(BCE)\)
Now again by observation,
\(Ar(BCDE) = 2Ar(BCE) = Ar(BED) - Ar(BCD) = \frac{1}{2}*EF*BD - \frac{1}{2}*CF*BD = \frac{1}{2}*(EF-CF)*BD\)
\(2Ar(BCE) = \frac{1}{2}*(EF-CF)*BD \Rightarrow Ar(BCE) = \frac{1}{4}*(EF-CF)*BD\)
\(Ar(BCE) = \frac{1}{4}*(EF-CF)*BD = \frac{1}{4}*([CE + CF]-CF)*BD = \frac{1}{4}*(CE)*BD\)
\(Ar(BCE) = \frac{1}{4}*(1)*\sqrt{2} = \frac{\sqrt{2}}{4}\)
Hence, Answer is B
gmatclubot
In the figure, each side of square ABCD has length 1, the length of li [#permalink]
25 Nov 2021, 07:52
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