Register
Dark Mode

ISI2017-MMA-7

in Quantitative Aptitude edited by
311 views
0 votes
0 votes

Let $n \geq 3$ be an integer. Then the statement $(n!)^{1/n} \leq \dfrac{n+1}{2}$ is

  1. true for every $n \geq 3$
  2. true if and only if $n \geq 5$
  3. not true for $n \geq 10$
  4. true for even integers $n \geq 6$, not true for odd $n \geq 5$
in Quantitative Aptitude edited by
by
311 views

1 Answer

2 votes
2 votes
Best answer
By AM-GM inequality, We have $$\sqrt[n]{1\cdot2\cdot3\cdot...\cdot n}\le\frac{1+2+3+...+n}{n}=\frac{n(n+1)}{2n}=\frac{n+1}{2}$$

$\Rightarrow ( n!)^{\frac{1}{n}}\leq \frac{n+1}{2}$

Hence, Option $(A)$ is correct.
selected by
by
← PreviousNext →
← Previous in categoryNext in category →

Related questions

Subscribe to GATE CSE 2024 Test Series

Subscribe to GO Classes for GATE CSE 2024

Quick search syntax
tags tag:apple
author user:martin
title title:apple
content content:apple
exclude -tag:apple
force match +apple
views views:100
score score:10
answers answers:2
is accepted isaccepted:true
is closed isclosed:true

Subjects

64.3k questions

77.9k answers

244k comments

80.0k users

Developed by Chun
Link Copied!