Last visit was: 21 Dec 2024, 22:36 It is currently 21 Dec 2024, 22:36

Close

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

we will pick new questions that match your level based on your Timer History

Track
Your Progress

every week, we’ll send you an estimated GRE score based on your performance

Practice
Pays

we will pick new questions that match your level based on your Timer History

Not interested in getting valuable practice questions and articles delivered to your email? No problem, unsubscribe here.

Close

Request Expert Reply

Confirm Cancel
Verbal Expert
Joined: 18 Apr 2015
Posts: 30448
Own Kudos [?]: 36808 [34]
Given Kudos: 26096
Send PM
Most Helpful Community Reply
avatar
Director
Director
Joined: 03 Sep 2017
Posts: 518
Own Kudos [?]: 707 [25]
Given Kudos: 0
Send PM
General Discussion
avatar
Intern
Intern
Joined: 11 Jan 2018
Posts: 44
Own Kudos [?]: 105 [6]
Given Kudos: 0
Send PM
User avatar
Manager
Manager
Joined: 26 Jun 2017
Posts: 102
Own Kudos [?]: 71 [1]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
1
Bookmarks
good question

Originally posted by boxing506 on 04 Mar 2018, 02:29.
Last edited by boxing506 on 15 Mar 2018, 23:26, edited 1 time in total.
avatar
Manager
Manager
Joined: 22 Feb 2018
Posts: 163
Own Kudos [?]: 215 [2]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
2
correct : C
|X -2 | > 3 means either x-2 > 3 or x-2< -3
so
x - 2 > 3 -> x > 5 or
x -2 < -3 -> x < -1
if the numbers are integers then we can't choose x =5 and x = -1 :
the minimum possible value of |x - 3.5 | is when x = 6, in this case |x-3.5| equals 2.5
the minimum possible value of |x - 1.5 | is when x = -1, in this case |x-3.5| equals 2.5 again
so considering numbers as integers these are equal.
avatar
Supreme Moderator
Joined: 01 Nov 2017
Posts: 371
Own Kudos [?]: 471 [0]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
Expert Reply
tigran wrote:
Why can't we put o as x at that time it will be the minimum value of x


0 is not a valid value for |x-2|>3....
Substitute x as 0... |0-2|=2 which is NOT greater than 3
User avatar
Manager
Manager
Joined: 01 Nov 2018
Posts: 87
Own Kudos [?]: 146 [1]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
1
Expert Reply
FatemehAsgarinejad wrote:
correct : C
|X -2 | > 3 means either x-2 > 3 or x-2< -3
so
x - 2 > 3 -> x > 5 or
x -2 < -3 -> x < -1
if the numbers are integers then we can't choose x =5 and x = -1 :
the minimum possible value of |x - 3.5 | is when x = 6, in this case |x-3.5| equals 2.5
the minimum possible value of |x - 1.5 | is when x = -1, in this case |x-3.5| equals 2.5 again
so considering numbers as integers these are equal.


nope.
"the minimum possible value of |x - 1.5 | is when x = -1, in this case |x-3.5| equals 2.5 again"

if x = -1, then |-1-3.5| = 4.5
avatar
Supreme Moderator
Joined: 01 Nov 2017
Posts: 371
Own Kudos [?]: 471 [2]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
1
Expert Reply
1
Bookmarks
Carcass wrote:

This question is part of GREPrepClub - The Questions Vault Project



\(|x-2| > 3\)

Quantity A
Quantity B
The minimum possible
value of |x - 3.5|
The minimum possible
value of | x - 1.5 |


A) Quantity A is greater.
B) Quantity B is greater.
C) The two quantities are equal.
D) The relationship cannot be determined from the information given.


\(|x-2| > 3\)

we can find the values of x in three ways...

(I) Since both sides are positive, square both sides
\(|x-2|^2 > 3^2.......x^2-4x+4>9.........x^2-4x-5>0.....x^2-5x+x-5>0........(x+1)(x-5)>0\)
a) either both are positive.. x+1>0 and x-5>0, so x>-1 and x>5...x>5
b) or both are negative .. x+1<0 and x-5<0, so x<-1 and x<5 ... so x<-1
x<-1 and x>5

(II) critical point..
x<=2..... -(x-2)>3.......x-2<-3....x<-1
x>2...... (x-2)>3......x>5

(III) logical approach via number line..
\(|x-2| > 3\) means the distance of x from 2 is greater than 3 units..
so if x is on the left side of 2, it will be < (2-3) or <-1
if x is on the right side of 2, it will be > (2+30 or >5

you can learn more of this from
https://gre.myprepclub.com/forum/absolute-modulus-a-better-understanding-11281.html

so we have range of x as x<-1 and x>5
The minimum possible value of |x - 3.5| ... again which value in range is closer to 3.5, it is 5, so value is just > |5-3.5| or just > 1.5
The minimum possible value of | x - 1.5 |... again which value in range is closer to 1.5, it is -1, so value is just > |-1-1.5| or just > 2.5
so B>A
avatar
Manager
Manager
Joined: 22 Feb 2018
Posts: 163
Own Kudos [?]: 215 [6]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
4
2
Bookmarks
Answer: B

3 < |x-2|

** If a < |b+c| Then a < (b+c) or (b+c) < -a
So we can conduct that:
3 < x-2 or (x-2) < -3
x > 5 or x < -1

A: The minimum possible value of |x-3.5|
First we should consider that an absolute value can’t be negative. At least it equals to 0.
We have x > 5 or x < -1
For x>5, |x-3.5| will be bigger than 1.5
For x<-1, |x-3.5| will be bigger than 4.5
So the minimum amount for A is 1.5

B: The minimum possible value of |x-1.5|
We have x > 5 or x < -1
For x>5, |x-1.5| will be bigger than 3
For x<-1, |x-1.5| will be bigger than 2.5
So the minimum amount for A is 2.5


So B is bigger than A.
avatar
Intern
Intern
Joined: 10 Dec 2018
Posts: 2
Own Kudos [?]: 0 [0]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
Can't we take any decimal value in the place of x? As it is not said that x is an integer?

Posted from my mobile device Image
avatar
Intern
Intern
Joined: 06 Oct 2019
Posts: 4
Own Kudos [?]: 0 [0]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
Fatemeh wrote:
correct : C
|X -2 | > 3 means either x-2 > 3 or x-2< -3
so
x - 2 > 3 -> x > 5 or
x -2 < -3 -> x < -1
if the numbers are integers then we can't choose x =5 and x = -1 :
the minimum possible value of |x - 3.5 | is when x = 6, in this case |x-3.5| equals 2.5
the minimum possible value of |x - 1.5 | is when x = -1, in this case |x-3.5| equals 2.5 again
so considering numbers as integers these are equal.


Since x > 5 or x < -1 why did you pick x = -1? I think if x is an integer it's minimum value should be -2. Therefore the minimum possible value of |x - 1.5 | is when x = -2, in this case |x-3.5| equals 3.5 which is bigger than the other value.

Can someone please explain?
Verbal Expert
Joined: 18 Apr 2015
Posts: 30448
Own Kudos [?]: 36808 [0]
Given Kudos: 26096
Send PM
|x-2| > 3 [#permalink]
Expert Reply
The question does not say that the numbers are integers.

So a number < -1 could be even 1.00000000000000000000000000000000000000000000000000001 OR 1,000,000


Regards
avatar
Retired Moderator
Joined: 16 Sep 2019
Posts: 187
Own Kudos [?]: 285 [3]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
3
We need to first find the value of x,

now there are two cases possible,
\(x - 2 > 3\) and \(x - 2 < -3\)
\(x > 5\) and \(x < -1\)
Minimum value of \(|x-3.5|\) is when x = 5 => |5-3.5| = 1.5
Minimum value of \(| x - 1.5 |\) is when x = -1 => |-1-1.5| = 2.5

Hence, B is the answer
Carcass wrote:

This question is part of GREPrepClub - The Questions Vault Project



\(|x-2| > 3\)

Quantity A
Quantity B
The minimum possible
value of |x - 3.5|
The minimum possible
value of | x - 1.5 |


A) Quantity A is greater.
B) Quantity B is greater.
C) The two quantities are equal.
D) The relationship cannot be determined from the information given.
avatar
Intern
Intern
Joined: 09 Mar 2020
Posts: 2
Own Kudos [?]: 0 [0]
Given Kudos: 0
Send PM
|x-2|>3 [#permalink]
\(|x-2|>3\)

Quantity A
Quantity B
The minimum possible value of |x-3.5|
The minimum possible value of |x-1.5|


A)The quantity in Column A is greater.
B)The quantity in Column B is greater.
C)The two quantities are equal.
D)The relationship cannot be determined from the information given.

Originally posted by ohanish on 09 Mar 2020, 18:27.
Last edited by Carcass on 21 Mar 2020, 02:26, edited 2 times in total.
Updated
avatar
Manager
Manager
Joined: 09 Mar 2020
Posts: 164
Own Kudos [?]: 202 [1]
Given Kudos: 0
Send PM
Re: Algebra QC [#permalink]
1
Mod of number will be positive.
Suppose x= 6, then in first case, |6-3.5| = 2.5 and |6-1.5|= 4.5. Hence choice B.
Suppose x=-6, then, |-6-3.5| = |-9.5|= 9.5 and |-6-1.5| = |-7.5| = 7.5. Hence choice A.
Thus choice D.
User avatar
GRE Instructor
Joined: 19 Jan 2020
Status:Entrepreneur | GMAT, GRE, CAT, SAT, ACT coach & mentor | Founder @CUBIX | Edu-consulting | Content creator
Posts: 117
Own Kudos [?]: 266 [3]
Given Kudos: 0
GPA: 3.72
Send PM
Re: Algebra QC [#permalink]
3
ohanish wrote:
Hello everyone,

Need some help with one question that is not making any sense to me right now.

|x-2|>3

Quantity A
The minimum possible value of |x-3.5|

Quantity B
The minimum possible value of |x-1.5|





We have: |x - 2| > 3
=> x - 2 > 3 OR x - 2 < -3
=> x > 5 OR x < -1

Quantity A: The minimum possible value of |x-3.5|
Ideally, the minimum value of any 'absolute value' term is zero

However, in this case, x cannot have the value 3.5 and hence, the above minimum cannot be zero
We need to find the closest x can be to 3.5, and that value is just exceeding 5 (not -1):

Thus, the minimum value of |x - 3.5| just exceeds |5 - 3.5| i.e. just more than 1.5


Quantity B: The minimum possible value of |x-1.5|

In this case too, x cannot have the value 1.5 and hence, the above minimum cannot be zero
We need to find the closest x can be to 1.5, and that value is just less than -1 (not 5):

Thus, the minimum value of |x - 1.5| just exceeds |-1 - 1.5| i.e. just more than 2.5

Thus, Quantity B is greater


Note: We need to find the minimum value, so plugging in ANY value of x is not going to work!

There is a bit of confusion, however, since we have x > 5 or x < -1. The question would have been much better if it had been: x ≥ 5 or x ≤ -1
In that case, Quantity A would have been 1.5 and Quantity B would have been 2.5 and we could have concluded that Quantity B is greater.

However, ideally speaking, in the present question, we have:
Quantity A is greater than 1.5 while Quantity B is greater than 2.5
Hence, the quantities cannot ideally be compared --- Option D
avatar
Manager
Manager
Joined: 04 Apr 2020
Posts: 90
Own Kudos [?]: 83 [2]
Given Kudos: 0
Send PM
Re: |x-2| > 3 [#permalink]
2
|x-2| > 3

It's better to look at the Quantities to know how to manipulate this equation. Since we need |x-3.5| and |x-1.5|, we can subtract both sides by 1.5 and add both sides by 0.5 separately to transform it in terms of the 2 quantities. Because 1.5 and 0.5 are scalar values (absolute quantities), we can freely add or subtract them to the equality and insert them inside the modulus without any significant issues.

|x-2| - 1.5 > 3 - 1.5
|x - 3.5| > 1.5 => Quantity A > 1.5 so we can assume minimum value as 1.500000001

|x-2| + 0.5 > 3 + 0.5
|x - 1.5| > 3.5 => Quantity B > 3.5 so we can assume minimum value as 3.500000001

Hence Quantity B is greater than Quantity A.
Senior Manager
Senior Manager
Joined: 23 Jan 2021
Posts: 294
Own Kudos [?]: 172 [0]
Given Kudos: 81
Concentration: , International Business
Send PM
Re: |x-2| > 3 [#permalink]
I could not understand the last part of your solution how you choose x= 5 and 1.5.
IlCreatore wrote:
Solving the disequality in the header, \(|x-2|>3\), we get \(x<-1, x>5\).

Then, the smallest value for \(|x-3.5|\) is when x = 5, i.e. \(|5-3.5| = 1.5\). The smallest value for \(|x-1.5|\) is when x = -1, i.e. \(|-1-1.5| = 2.5\).

Thus, since 2.5>1.5, quantity B is greater!
Retired Moderator
Joined: 02 Dec 2020
Posts: 1831
Own Kudos [?]: 2149 [1]
Given Kudos: 140
GRE 1: Q168 V157

GRE 2: Q167 V161
Send PM
Re: |x-2| > 3 [#permalink]
1
Hey,

I hope you are clear till \(|x-2|>3\), we get \(x<-1, x>5\)

Now we are given that \(x > 5\) , so the smallest value for \(|x-3.5|\) will be when \(x = 5\), which is \(1.5\)
if you take let's say \(x=5.5\) then \(|x-3.5|\) will be \(2\) & if \(x=6\) then \(|x-3.5|\) will be \(2.5\)

Same goes with the smallest value for \(|x-1.5|\) when \(x = -1\)
You can try \(x = -1.5\) or \(-2\)

Ask in case of any doubts.

kumarneupane4344 wrote:
I could not understand the last part of your solution how you choose x= 5 and 1.5.
IlCreatore wrote:
Solving the disequality in the header, \(|x-2|>3\), we get \(x<-1, x>5\).

Then, the smallest value for \(|x-3.5|\) is when x = 5, i.e. \(|5-3.5| = 1.5\). The smallest value for \(|x-1.5|\) is when x = -1, i.e. \(|-1-1.5| = 2.5\).

Thus, since 2.5>1.5, quantity B is greater!
avatar
Intern
Intern
Joined: 09 Jul 2021
Posts: 2
Own Kudos [?]: 1 [0]
Given Kudos: 5
Send PM
Re: |x-2| > 3 [#permalink]
IlCreatore wrote:
Solving the disequality in the header, \(|x-2|>3\), we get \(x<-1, x>5\).

Then, the smallest value for \(|x-3.5|\) is when x = 5, i.e. \(|5-3.5| = 1.5\). The smallest value for \(|x-1.5|\) is when x = -1, i.e. \(|-1-1.5| = 2.5\).

Thus, since 2.5>1.5, quantity B is greater!



Can someone please elaborate why he has taken the extreme cases to plug in the value of 'X' like 5, -1, whereas x>5 or x<-1, so why not x = 6 or -2. I tried choosing x=6 wherein A<B, and if x=-2 A>B, it should be 'D'. Can someone else resolve my query here
Prep Club for GRE Bot
Re: |x-2| > 3 [#permalink]
 1   2   
Moderators:
GRE Instructor
88 posts
GRE Forum Moderator
37 posts
Moderator
1115 posts
GRE Instructor
234 posts

Powered by phpBB © phpBB Group | Emoji artwork provided by EmojiOne