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02 Sep 2013, 12:39
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E
Be sure to select an answer first to save it in the Error Log before revealing the correct answer (OA)!
Difficulty:
95%
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Question Stats:
35% (02:13) correct
65%
(02:12)
wrong
based on 231
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If A, B & C can build a wall in 4 hours, working together, at their respective rates. If their working rates remain the same, who among the three can build the same wall in shortest amount of time working independently?
(1) Working alone B can build the same wall in more than eight but less than eleven days.
(2) Working together B and C can build the same wall in five days.
(1) Working alone B can build the same wall in more than eight but less than eleven days.
(2) Working together B and C can build the same wall in five days.
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02 Sep 2013, 21:51
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If A, B & C can build a wall in 4 hours,working together, at their respective rates. :-
Let's Assume that
A is building the wall in x days. So in one day he will build 100/x% of wall AND in one hour he will build \(\frac{100}{24x} %\) of wall
A is building the wall in y days. So in one day he will build 100/y% of wall AND in one hour he will build \(\frac{100}{24y} %\) of wall
A is building the wall in z days. So in one day he will build 100/z% of wall AND in one hour he will build \(\frac{100}{24z} %\) of wall
A, B & C can build a wall in 4 hours :- That means in 4 hours A, B, C working together are building \(\frac{100}{4}\) = 25% wall
If their working rates remain the same ,who among the three can build the same wall in shortest amount of time working independently? :- Which among the \(\frac{100}{24x}, \frac{100}{24y}, \frac{100}{24z}\) least ???
1) Working alone B can build the same wall in more than eight but less than eleven days. :- \(\frac{100}{24*8} < %--completion--by--B--in--one--hour < \frac{100}{24*11}\) -----------------------------> 0.52% < % completion by B in one hour < 0.38%
No mention of Rates of A or C. Hence Insufficient.
2) Working together B and C can build the same wall in five days. ------> B and C, working together, can build \(\frac{100}{5} = 20%\) wall in one day OR \(\frac{20}{24} = 0.833%\) wall in one hour.
Recall the Highlighted Part. A,B,C together are building 25% wall in one hour AND B and C together are building 0.833% wall, So A must be completing 25 - 8.33 = 24.16% wall in one hour. That Means A's Rate is greatest. Thus we only have to determine individual rates of B and C in order to decide whose rate is least.
This choice does not give us individual rates of B and C. Hence Insufficient.
1 + 2) :- 0.52% < % completion by B in one hour < 0.38% AND 0.833% = % completion by B and C Together.
B's Minimum rate can be 0.39% in that case C's rate will be (0.833 - 0.39) = 0.44%, B's rate is least
B's Maximum rate can be 0.51% in that case C's rate will be (0.833 - 0.51) = 0.32%, C's rate is least
Two different answer. Hence Insufficient. Choice E
Let's Assume that
A is building the wall in x days. So in one day he will build 100/x% of wall AND in one hour he will build \(\frac{100}{24x} %\) of wall
A is building the wall in y days. So in one day he will build 100/y% of wall AND in one hour he will build \(\frac{100}{24y} %\) of wall
A is building the wall in z days. So in one day he will build 100/z% of wall AND in one hour he will build \(\frac{100}{24z} %\) of wall
A, B & C can build a wall in 4 hours :- That means in 4 hours A, B, C working together are building \(\frac{100}{4}\) = 25% wall
If their working rates remain the same ,who among the three can build the same wall in shortest amount of time working independently? :- Which among the \(\frac{100}{24x}, \frac{100}{24y}, \frac{100}{24z}\) least ???
1) Working alone B can build the same wall in more than eight but less than eleven days. :- \(\frac{100}{24*8} < %--completion--by--B--in--one--hour < \frac{100}{24*11}\) -----------------------------> 0.52% < % completion by B in one hour < 0.38%
No mention of Rates of A or C. Hence Insufficient.
2) Working together B and C can build the same wall in five days. ------> B and C, working together, can build \(\frac{100}{5} = 20%\) wall in one day OR \(\frac{20}{24} = 0.833%\) wall in one hour.
Recall the Highlighted Part. A,B,C together are building 25% wall in one hour AND B and C together are building 0.833% wall, So A must be completing 25 - 8.33 = 24.16% wall in one hour. That Means A's Rate is greatest. Thus we only have to determine individual rates of B and C in order to decide whose rate is least.
This choice does not give us individual rates of B and C. Hence Insufficient.
1 + 2) :- 0.52% < % completion by B in one hour < 0.38% AND 0.833% = % completion by B and C Together.
B's Minimum rate can be 0.39% in that case C's rate will be (0.833 - 0.39) = 0.44%, B's rate is least
B's Maximum rate can be 0.51% in that case C's rate will be (0.833 - 0.51) = 0.32%, C's rate is least
Two different answer. Hence Insufficient. Choice E
17 Sep 2013, 04:00
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To my understanding, the question is asking "who among the three can build the same wall in shortest amount of time
working independently", or who has the fastest rate. Hence, I chose (B), since A must have the fastest rate (as shown in the answer above).
working independently", or who has the fastest rate. Hence, I chose (B), since A must have the fastest rate (as shown in the answer above).
