GRE Prep Club Daily Prep
Thank you for using the timer - this advanced tool can estimate your performance and suggest more practice questions. We have subscribed you to Daily Prep Questions via email.
Customized
for You
Track
Your Progress
Practice
Pays
Not interested in getting valuable practice questions and articles delivered to your email? No problem, unsubscribe here.
Retired Moderator
Joined: 10 Apr 2015
Posts: 6218
Given Kudos: 136
If x, y and z are three different non-negative integers, whi
[#permalink]
18 Jun 2019, 06:26
18 Jun 2019, 06:26
7
Bookmarks
00:00
Question Stats:
24% (02:09) correct
76% (02:04) wrong based on 50 sessions
Hide Show timer Statistics
If x, y and z are three different non-negative integers, which of the following COULD be true?
i) \(|x-y|=|x+y|=|y-z|\)
ii) \(x^y = y^z\)
iii) \(x^3 + y^3 = z^3\)
A) i only
B) ii only
C) iii only
D) i and ii
E) i and iii
i) \(|x-y|=|x+y|=|y-z|\)
ii) \(x^y = y^z\)
iii) \(x^3 + y^3 = z^3\)
A) i only
B) ii only
C) iii only
D) i and ii
E) i and iii
Retired Moderator
Joined: 10 Apr 2015
Posts: 6218
Given Kudos: 136
Re: If x, y and z are three different non-negative integers, whi
[#permalink]
19 Jun 2019, 07:52
19 Jun 2019, 07:52
5
1
Bookmarks
GreenlightTestPrep wrote:
If x, y and z are three different non-negative integers, which of the following COULD be true?
i) \(|x-y|=|x+y|=|y-z|\)
ii) \(x^y = y^z\)
iii) \(x^3 + y^3 = z^3\)
A) i only
B) ii only
C) iii only
D) i and ii
E) i and iii
i) \(|x-y|=|x+y|=|y-z|\)
ii) \(x^y = y^z\)
iii) \(x^3 + y^3 = z^3\)
A) i only
B) ii only
C) iii only
D) i and ii
E) i and iii
I created this question to illustrate the importance of checking the answer choices each time you analyze one of the statements. Here’s why:
Once we know that statement i COULD be true (it's true when x = 0, y = 1 and z = 2), we should check the answer choices….
ELIMINATE answer choices B and C, since they incorrectly state that statement i CANNOT be true.
Once we know that statement ii COULD be true (it's true when x = 8, y = 2 and z = 6), check the remaining answer choices….
ELIMINATE answer choices A and E, since they incorrectly state that statement ii CANNOT be true.
So, by the process of elimination, we know that the correct answer is D
Best of all, we’re able to determine the correct answer WITHOUT analyzing statement iii, which is great since statement iii is VERY TRICKY.
By the way, if you had a hard time determining whether statement iii could be true, you’re not alone!
Statement iii is something mathematicians have struggled with since 1637, when a French mathematician named Pierre de Fermat (shown here)…
…suggested that the equation \(a^3 + b^3 = c^3\) cannot have a solution in which the values of a, b and c are POSITIVE integers.
In fact, Pierre de Fermat went even further to say that the equation \(a^n + b^n = c^n\) cannot have a solution in which the values of a, b and c are POSITIVE integers, for n > 2.
Unfortunately Fermat never proved his theorem. In fact, the theorem (famously known as Fermat’s Last Theorem) was found after his death. Fermat had written the theorem in the margin of one of his textbooks. In addition to the theorem, Fermat wrote that he had a marvelous proof for it, but that it was too long to fit in the margin of the book.
Since then, pretty much every mathematician has tried to prove (or disprove) Fermat’s Last Theorem, but it took until 1994 (357 years later!!!) when it was successfully proved by a mathematician named Andrew Wiles.
Cheers,
Brent
General Discussion
Re: If x, y and z are three different non-negative integers, whi
[#permalink]
23 May 2020, 12:19
23 May 2020, 12:19
1
Does anyone believe that this is not a good GRE question?
I find it very misleading
I find it very misleading
