Last visit was: 21 Nov 2024, 10:40 It is currently 21 Nov 2024, 10:40

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: 30000
Own Kudos [?]: 36335 [4]
Given Kudos: 25924
Send PM
Intern
Intern
Joined: 23 Mar 2022
Posts: 10
Own Kudos [?]: 1 [0]
Given Kudos: 28
Send PM
Retired Moderator
Joined: 02 Dec 2020
Posts: 1831
Own Kudos [?]: 2146 [1]
Given Kudos: 140
GRE 1: Q168 V157

GRE 2: Q167 V161
Send PM
Retired Moderator
Joined: 10 Apr 2015
Posts: 6218
Own Kudos [?]: 12196 [1]
Given Kudos: 136
Send PM
Re: If f(x) = x^2 + 4 and f(2k) = 36, then which of the following is one [#permalink]
1
Carcass wrote:
If f(x) = x^2 + 4 and f(2k) = 36, then which of the following is one possible value of k?

A. \(\sqrt{2}\)
B. 2
C. 4
D. \(2\sqrt{2}\)
E. \(14\)


STRATEGY: As with all GRE Multiple Choice questions, we should immediately ask ourselves, Can I use the answer choices to my advantage?
In this case, we can test each answer choice by plugging it into the function to see which value satisfies the equation f(2k) = 36.
So, that's one option.
Now we should give ourselves 15-20 seconds to identify a faster approach.
In this case, we can also solve the equation.
I'm pretty sure I can quickly solve the equation so I'm going to go with that approach.



If \(f(x) = x^2 + 4\), then \(f(2k) = (2k)^2 + 4= 4k^2 + 4\)

Since we are told \(f(2k) = 36\), we can write: \(4k^2 + 4 = 36\)
Divide both sides of the equation by \(4\) to get: \(k^2 + 1 = 9\)
Subtract \(1\) from both sides to get: \(k^2 = 8\)

So, EITHER \(k = \sqrt{8} \) OR \(k = -\sqrt{8} \)
Check the answer choices...... Not there. It looks like we need to simplify \(\sqrt{8}\)

\(\sqrt{8} = \sqrt{4 \times 2} = \sqrt{4} \times \sqrt{2}= 4 \sqrt{2}\).
So, EITHER \(k = 2\sqrt{2} \) OR \(k = -2\sqrt{2} \)

Answer: D
Moderator
Moderator
Joined: 02 Jan 2020
Status:GRE Quant Tutor
Posts: 1111
Own Kudos [?]: 964 [1]
Given Kudos: 9
Location: India
Concentration: General Management
Schools: XLRI Jamshedpur, India - Class of 2014
GMAT 1: 700 Q51 V31
GPA: 2.8
WE:Engineering (Computer Software)
Send PM
Re: If f(x) = x^2 + 4 and f(2k) = 36, then which of the following is one [#permalink]
1
Given that f(x) = \(x^2\) + 4 and f(2k) = 36 and we need to find one possible value of k

To find f(2k) we need to compare what is inside the bracket () * in f(2k) and f(x)

=> We need to substitute x with 2k in f(x) = \(x^2\) + 4 to get the value of f(2k)

=> f(2k) = \((2k)^2\) + 4 = \(4k^2\) + 4 = 36 (given)
=> \(4k^2\) = 36-4 = 32
=> \(k^2\) = \(\frac{32}{4}\) = 8
=> k = \(\sqrt{8}\) = \(2\sqrt{2}\)

So, Answer will be D
Hope it helps!

Watch the following video to learn the Basics of Functions and Custom Characters

Verbal Expert
Joined: 18 Apr 2015
Posts: 30000
Own Kudos [?]: 36335 [0]
Given Kudos: 25924
Send PM
If f(x)=x^2+4, and f(2k)=36. then which of the following is one possib [#permalink]
Expert Reply
If \(f(x)=x^2+4\), and \(f(2k)=36\). then which of the following is one possible value of K?

A. \(\sqrt{2}\)

B. 2

C. 4

D. \(2 \sqrt{2}\)

E. \(\sqrt{14}\)


Part of the project: The Butler-GRE Daily New Quant and Verbal Questions to Practice (2023) - Gain 20 Kudos & Get FREE Access to GRE Prep Club TESTS
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Free Materials for the GRE General Exam - Where to get it!!
GRE Geometry Formulas
GRE - Math Book
Prep Club for GRE Bot
If f(x)=x^2+4, and f(2k)=36. then which of the following is one possib [#permalink]
Moderators:
GRE Instructor
83 posts
GRE Forum Moderator
37 posts
Moderator
1111 posts
GRE Instructor
234 posts

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