Ex-6.3 [Q13 to Q29] Maths Class 12 NCERT Solutions Chapter 6 Application of Derivatives | 2023-24

Ex-6.3 Maths Class 12 NCERT Solutions Chapter Application of derivatives Exercise 6.3 Math class 12 | 2022-23 Class 12 Maths NCERT Solutions All Chapters (All Exercises):    • Class 12 Maths NCERT Solutions All Chapter...   #applicationsofderivatives #ncertclass12maths #class12maths #HereOnlyMaths Application of Derivatives Maxima Minima of functions Maximum value Minimum value of functions Absolute Maximum value Absolute Minimum value of functions Greatest value Least value of functions Time stamp 00:00 Imp Note (Language problems of Maxima/Minima) 5:48 Ques.13 10:33 Ques.14 15:26 Ques.15 23:16 Ques.16 28:20 Ques.17 28:45 Ques.18 48:47 Ques.19 01:01:52 Ques.20 01:13:42 Ques.21 01:23:15 Ques.22 01:33:35 Ques.23 01:48:41 Ques.24 02:00:20 Ques.25 02:09:33 Ques.26 02:26:08 Ques.27 02:36:47 Ques.28 02:43:26 Ques.29 class 12 exercise 6.3 maths class 12 maths chapter 6 class 12 maths chapter 6 exercise 6.3 CBSE class 12 maths exercise 6.3 exercise 6.3 class 12 maths class 12 maths in English NCERT class 12 exercise 6.3 Application of Derivatives class 12th maths in Hindi class 12 maths chapter 6 introduction class 12 maths chapter 6 exercise 6.3 One shot class 12 maths chapter 6 exercise 6.3 question 13 class 12 maths chapter 6 exercise 6.3 question 14 class 12 maths chapter 6 exercise 6.3 question 15 class 12 maths chapter 6 exercise 6.3 question 16 class 12 maths chapter 6 exercise 6.3 question 17 class 12 maths chapter 6 exercise 6.3 question 18 class 12 maths chapter 6 exercise 6.3 question 19 class 12 maths chapter 6 exercise 6.3 question 20 class 12 maths chapter 6 exercise 6.3 question 21 class 12 maths chapter 6 exercise 6.3 question 22 class 12 maths chapter 6 exercise 6.3 question 23 class 12 maths chapter 6 exercise 6.3 question 24 class 12 maths chapter 6 exercise 6.3 question 25 class 12 maths chapter 6 exercise 6.3 question 26 class 12 maths chapter 6 exercise 6.3 question 27 class 12 maths chapter 6 exercise 6.3 question 28 class 12 maths chapter 6 exercise 6.3 question 29 class 12 maths ch 6 class 12 maths ch 6 ex 6.3 class 12 maths ch 6 ex 6.3 Introduction class 12 maths ch 6 ex 6.3 Solutions class 12 maths ch 6 ex 6.3 q13 class 12 maths ch 6 ex 6.3 q14 class 12 maths ch 6 ex 6.3 q14 class 12 maths ch 6 ex 6.3 q15 class 12 maths ch 6 ex 6.3 q16 class 12 maths ch 6 ex 6.3 q17 class 12 maths ch 6 ex 6.3 q18 class 12 maths ch 6 ex 6.3 q19 class 12 maths ch 6 ex 6.3 q20 class 12 maths ch 6 ex 6.3 q21 class 12 maths ch 6 ex 6.3 q22 class 12 maths ch 6 ex 6.3 q23 class 12 maths ch 6 ex 6.3 q24 class 12 maths ch 6 ex 6.3 q25 class 12 maths ch 6 ex 6.3 q26 class 12 maths ch 6 ex 6.3 q27 class 12 maths ch 6 ex 6.3 q28 class 12 maths ch 6 ex 6.3 q29 A square piece of tinof side 18 cm is to be made into a box without top by cutting a square from each corner and folding of the flaps to form the box. What should be the side of the square to be cut off so that the volume of the box is the maximum possible A rectangular sheet of tin 45 CM by 24 cm is to be made into a box without top by cutting off square from each corner and folding up the flaps what should be the side of the square to be cut off so that the volume of the box is maximum show that of all the rectangles inscribed in a given fixed circle the square has the maximum area show that the right circular cylinder of given surface and maximum volume is such that its height is equal to the diameter of the base of all the closed cylindrical cans right circular of a given volume of 100 cubic centimetres find the dimensions of the can which has the minimum surface area a wire of length 28 m is to be cut into two pieces one of the pieces is to be made into a square and the other into a circle what should be the length of the two pieces so that the combined area of this square and the circle is minimum prove that the volume of the largest cone that can be inscribed in a sphere of radius r is 8/27 of the volume of the sphere show that the right circular cone of least curved surface and given volume has an altitude equal to √2 time the radius of the base should at the semi vertical angle of the cone of the maximum volume and of given slant height is tan inverse square root 2 should add the Semi vertical angle of right circular cone of given surface area and maximum volume is sin inverse 1 by 3 find two numbers whose sum is 24 and whose product is as large as possible find two numbers X and y such that X + y is equal to 60 and xy cube is maximum find two positive numbers X and y such that their sum is 35 and the product x square y power 5 is a maximum find two positive numbers whose sum is 16 and the sum of whose cubes is minimum