Explore Exams
Login Signup
Sign in Open App
JEE Exam  >  JEE Test  >  Mathematics (Maths) Main & Advanced  >  Test: Maxima Minima (Derivative) - 1 - JEE MCQ

Maxima Minima (Derivative) - 1 - Free MCQ Practice Test with solutions,


MCQ Practice Test & Solutions: Test: Maxima Minima (Derivative) - 1 (10 Questions)

You can prepare effectively for JEE Mathematics (Maths) for JEE Main & Advanced with this dedicated MCQ Practice Test (available with solutions) on the important topic of "Test: Maxima Minima (Derivative) - 1". These 10 questions have been designed by the experts with the latest curriculum of JEE 2026, to help you master the concept.

Test Highlights:

  • - Format: Multiple Choice Questions (MCQ)
  • - Duration: 10 minutes
  • - Number of Questions: 10

Sign up on EduRev for free to attempt this test and track your preparation progress.

Test: Maxima Minima (Derivative) - 1 - Question 1
Save

The maximum and minimum values of f(x) =  are

Detailed Solution: Question 1

f(x) = sinx + 1/2cos2x  
⇒ f'(x) = cos x – sin2x 
Now, f'(x) = 0 gives cosx – sin2x = 0 
⇒ cos x (1 – 2 sinx) = 0 
⇒ cos x = 0, (1 – 2 sinx) = 0 
⇒ cos x = 0, sinx = 1/2 
⇒ x = π/6 , π/2 
Now, f(0) = 1/2, 
f(π/6) = 1/2 + 1/4 = 3/4, 
f(π/2) = 1 – 1/2 = 1/2 
Therefore, the absolute max value = 3/4 and absolute min = 1/2

Test: Maxima Minima (Derivative) - 1 - Question 2
Save

​Find the points of local maxima or minima for the function f(x) = x3.ex.

Clear all your doubts with EduRev
Test: Maxima Minima (Derivative) - 1 - Question 3
Save

The maximum value of f (x) = sin x in the interval [π,2π] is​

Detailed Solution: Question 3

f(x) = sin x
f’(x) =cosx 
f”(x) = -sin x
f”(3pi/2) = -sin(3pi/2)
= -(-1)
=> 1 > 0 (local minima)
f(pi) = sin(pi) = 0
f(2pi) = sin(2pi) = 0 
Hence, 0 is the maxima.

Test: Maxima Minima (Derivative) - 1 - Question 4
Save

The maximum and the minimum value of 3x4 – 8x3 + 12x2 – 48x + 1 on the interval [1,4]​

Test: Maxima Minima (Derivative) - 1 - Question 5
Save

The maximum value of  is​

Detailed Solution: Question 5

For every real number (or) valued function f(x), the values of x which satisfies the equation f1(x)=0 are the point of it's local and global maxima or minima.
This occurs due to the fact that, at the point of maxima or minima, the curve of the function has a zero slope.
We have function f(x) = (1/x)x
We will be using the equation, y = (1/x)x 
Taking in both sides we get
ln y = −xlnx
Differentiating both sides with respect to x.y. 
dy/dx = −lnx−1
dy/dx =−y(lnx+1)
Equating  dy/dx to 0, we get
−y(lnx+1)=0
Since y is an exponential function it can never be equal to zero, hence
lnx +1 = 0
lnx = −1
x = e(−1)
So, for the maximum value we put x = e^(−1)in f(x) to get the value of f(x) at the point.
f(e^−1) = e(1/e).
Hence the maximum value of the function is (e)1/e

Test: Maxima Minima (Derivative) - 1 - Question 6
Save

Find the maximum profit that a company can make, if the profit function is given by P(x) = 41 + 24 x – 18x2

Detailed Solution: Question 6

p’(x) = -24 - 36x
p”(x) = -36
Now, p’(x) = 0  ⇒ x = (-24)/36
x = -⅔
Also, p”(-⅔) = -36 < 0
By the second derivative test,  x = -⅔
Therefore, maximum profit = p(-⅔)
= 41 - 24(-⅔) - 18(-⅔)^2 
= 41 +16 - 8  
⇒ 49

Test: Maxima Minima (Derivative) - 1 - Question 7
Save

If f (x) = a log |x| + bx2 + x has extreme values at x = –1 and at x = 2, then values of a and b are

Detailed Solution: Question 7

f(x) = alog|x| + bx2 + x
f’(x) = a/x + 2bx + 1
f’(-1) = - a - 2b + 1
-a - 2b + 1 = 0
a = 1 - 2b
f’(2) = a/2 + 4b + 1 = 0
a + 8b = -2
Put the value of a in eq(1)
(1 - 2b) + 8b = - 2
6b = -3
b = -½, a = 2

Test: Maxima Minima (Derivative) - 1 - Question 8
Save

The maximum and minimum values of f (x) = x50-x20 in the interval [0, 1] are

Test: Maxima Minima (Derivative) - 1 - Question 9
Save

Find the maximum and minimum values of f (x) = 2x3 – 24x + 107 in the interval [1, 3].​

Detailed Solution: Question 9

f(x)=2x³-24x+107 x ∈ [1, 3]
f'(x) = 6x^2 - 24
To find the points equate f'(x) = 0
in closed interval x= -2 doesn't lies,so discard x = -2
now find the value of function at x = 1, 2 ,3
f(1) =2(1)³-24(1)+107
= 2-24+107 = 85
f(2) =2(2)³-24(2)+107
= 16-48+107 = 75
f(3) =2(3)³-24(3)+107
= 54-72+107 = 89
So, the function has maximum value in close interval at x= 3, Maximum value= 89.
minimum value at x= 2, minimum value = 75

Test: Maxima Minima (Derivative) - 1 - Question 10
Save

Find the point of local maxima or minima for the function

173 videos|510 docs|154 tests
Join Course
Information about Test: Maxima Minima (Derivative) - 1 Page
In this test you can find the Exam questions for Test: Maxima Minima (Derivative) - 1 solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Maxima Minima (Derivative) - 1, EduRev gives you an ample number of Online tests for practice
Download as PDF
;

About this JEE Practice Test

This test contains 10 MCQs on Maxima Minima (Derivative) - 1 with detailed solutions for each question. It is part of the Mathematics (Maths) for JEE Main & Advanced course on EduRev, designed to align with the current JEE syllabus. Each solution explains not just the correct answer but also gives you an understanding of the topic — not just to attempt the question but also help you prepare for the exam with practice.

Explore more JEE Study Resources

If you found this Maxima Minima (Derivative) - 1 MCQ Test helpful, you can further enhance your JEE preparation with in-depth courses on EduRev, for all the subjects and topics available in Mathematics (Maths) for JEE Main & Advanced course. The course offers:
  • Video Lectures: covering all the topics of Mathematics (Maths) for JEE Main & Advanced
  • Notes for Revision: offering revision notes, important questions, summaries, flashcards, cheatsheets & more for JEE preparation
  • MCQ Test: variety of questions as per the pattern of JEE exam
Signup on EduRev and stay on top of your study goals
10M+ students crushing their study goals daily