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31 May 2023, 01:30
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A
Be sure to select an answer first to save it in the Error Log before revealing the correct answer (OA)!
Difficulty:
35%
(medium)
Question Stats:
74% (01:56) correct
26%
(02:08)
wrong
based on 46
sessions
History
Date
Time
Result
Not Attempted Yet
If x, y, and z are positive numbers, is \(x - y < z\)?
(1) \(x + y < z\)
(2) \(xy < z^2\)
(1) \(x + y < z\)
(2) \(xy < z^2\)
31 May 2023, 01:49
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(1) Only
x + y < z
So
x - y = (x + y) - 2y < z -2y
Because y > 0
z - 2y < z
So x - y < z
Sufficient
(2) Only
(i) If x = 8, y = 1, z = 3
xy<z^2
x-y>z
(ii) If x = 1, y = 8, z = 3
x - y < z
Not sufficient.
The answer is thus (A).
x + y < z
So
x - y = (x + y) - 2y < z -2y
Because y > 0
z - 2y < z
So x - y < z
Sufficient
(2) Only
(i) If x = 8, y = 1, z = 3
xy<z^2
x-y>z
(ii) If x = 1, y = 8, z = 3
x - y < z
Not sufficient.
The answer is thus (A).
31 May 2023, 08:43
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If x, y, and z are positive numbers, is x−y<z ?
=> we need to check, is x < z+y?
(1) x+y<z
=> x < z-y
since, x, y and z are all positive numbers, if x < z-y then x is also less than z+y.
hence, statement 1 is Sufficient
(2) xy<z^2
From this there is no way to deduce or check whether x < z+y
Answer A
=> we need to check, is x < z+y?
(1) x+y<z
=> x < z-y
since, x, y and z are all positive numbers, if x < z-y then x is also less than z+y.
hence, statement 1 is Sufficient
(2) xy<z^2
From this there is no way to deduce or check whether x < z+y
Answer A
