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14 Dec 2012, 08:53
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D
Be sure to select an answer first to save it in the Error Log before revealing the correct answer (OA)!
Difficulty:
15%
(low)
Question Stats:
78% (01:27) correct
22%
(01:33)
wrong
based on 1986
sessions
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Quadrilateral RSTU shown above is a site plan for a parking lot in which side RU is parallel to side ST and RU is longer than ST. What is the area of the parking lot?
(1) RU = 80 meters
(2) TU = \(20\sqrt{10}\) meters
Attachment:
lot.png [ 7.64 KiB | Viewed 32562 times ]
14 Dec 2012, 09:02
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Quadrilateral RSTU shown above is a site plan for a parking lot in which side RU is parallel to side ST and RU is longer than ST. What is the area of the parking lot?
Given figure is a trapezoid, thus its area is SW*(ST+RU)/2=60*(45+RU)/2. So, all we need to know to answer the question is the length of RU.
(1) RU = 80 meters. Sufficient.
(2) TU = \(20\sqrt{10}\) meters. Draw altitude from vertex T to RU as shown below:
Since TX=SW=60 and TU = \(20\sqrt{10}\), then we can find XU. Therefore we can find RU=RW+WX+XU. Sufficient.
Answer: D.
Attachment:
trapezoid.png [ 12.4 KiB | Viewed 30593 times ]
General Discussion
15 Jul 2016, 05:26
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Bunuel
Hi Bunuel,
I am referring to a similar question in Sackmann's Challenge sets (as attached). At first it seemed a simple and a straightforward option D, but the solution (in spoiler) provided in the set says we do not know about the symmetry and hence we cannot use pythagoras theorem to deduce the base of the triangle. I am not sure if this reasoning is correct. Please advise.
Statement (1) is insufficient, but it does help. Knowing ST, combined with
the given length, allows us to use the pythagorean theorem to and the length
of SW. However, that does not give us the entire length of RS unless we knew
the figure was symmetrical, which we dont.
the given length, allows us to use the pythagorean theorem to and the length
of SW. However, that does not give us the entire length of RS unless we knew
the figure was symmetrical, which we dont.
Thanks.
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