RD Sharma Solutions Class 11 Maths Chapter 17 Exercise 17.2 (Updated 2024)

RD Sharma Solutions Class 11 Maths Chapter 17 Exercise 17.2: We previously studied the arrangement of a fixed number of objects, while acquiring some or all of them. Part or all of the elements, regardless of their arrangement, each different option is called a combination. Students who wish to learn by themselves and solve problems encountered in practice can use RD Sharma Solutions Class 11 Maths Chapter 17 Exercise 17.2 as reference material, which is the best resource that any student can use. All solutions are created by experts in the field and take into account the latest CBSE marking model. Exercise-based solutions for these topics are provided in PDF format, which students can download easily.

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Access RD Sharma Solutions Class 11 Maths Chapter 17 Exercise 17.2

1. From a group of 15 cricket players, a team of 11 players is to be chosen. In how many ways can this be done?

Solution:

Given:

Number of players = 15

Number of players to be selected = 11

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁵C₁₁ = 15! / 11! (15 – 11)!

= 15! / (11! 4!)

= [15×14×13×12×11!] / (11! 4!)

= [15×14×13×12] / (4×3×2×1)

= 15×7×13

= 1365

∴ The total number of ways of choosing 11 players out of 15 is 1365 ways.

2. How many different boat parties of 8, consisting of 5 boys and 3 girls, can be made from 25 boys and 10 girls?

Solution:

Given:

Total boys are = 25

Total girls are = 10

Boat party of 8 to be made from 25 boys and 10 girls, by selecting 5 boys and 3 girls.

So,

By using the formula,

ⁿC_r = n!/r!(n – r)!

²⁵C₅ × ¹⁰C₃ = 25!/5!(25 – 5)! × 10!/3!(10-3)!

= 25! / (5! 20!) × 10!/(3! 7!)

= [25×24×23×22×21×20!]/(5! 20!) × [10×9×8×7!]/(7! 3!)

= [25×24×23×22×21]/5! × [10×9×8]/(3!)

= [25×24×23×22×21]/(5×4×3×2×1) × [10×9×8]/(3×2×1)

= 5×2×23×11×21 × 5×3×8

= 53130 × 120

= 6375600

∴ The total number of different boat parties is 6375600 ways.

3. In how many ways can a student choose 5 courses out of 9 courses if 2 courses are compulsory for every student?

Solution:

Given:

The total number of courses is 9

So out of 9 courses, 2 courses are compulsory. Students can choose from 7 (i.e., 5+2) courses only.

That too out of 5 courses student has to choose, 2 courses are compulsory.

So they have to choose 3 courses out of 7 courses.

This can be done in ⁷C₃ ways.

By using the formula,

ⁿC_r = n!/r!(n – r)!

⁷C₃ = 7! / 3! (7 – 3)!

= 7! / (3! 4!)

= [7×6×5×4!] / (3! 4!)

= [7×6×5] / (3×2×1)

= 7×5

= 35

∴ The total number of ways of choosing 5 subjects out of 9 subjects, of which 2 are compulsory, is 35 ways.

4. In how many ways can a football team of 11 players be selected from 16 players? How many of these will (i) Include 2 particular players? (ii) Exclude 2 particular players?

Solution:

Given:

Total number of players = 16

Number of players to be selected = 11

So, the combination is ¹⁶C₁₁

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁶C₁₁ = 16! / 11! (16 – 11)!

= 16! / (11! 5!)

= [16×15×14×13×12×11!] / (11! 5!)

= [16×15×14×13×12] / (5×4×3×2×1)

= 4×7×13×12

= 4368

(i) Include 2 particular players?

It is said that two players are always included.

Now, we have to select 9 players out of the remaining 14 players as 2 players are already selected.

Number of ways = ¹⁴C₉

¹⁴C₉ = 14! / 9! (14 – 9)!

= 14! / (9! 5!)

= [14×13×12×11×10×9!] / (9! 5!)

= [14×13×12×11×10] / (5×4×3×2×1)

= 7×13×11×2

= 2002

(ii) Exclude 2 particular players?

It is said that two players are always excluded.

Now, we have to select 11 players out of the remaining 14 players as 2 players are already removed.

Number of ways = ¹⁴C₉

¹⁴C₁₁ = 14! / 11! (14 – 11)!

= 14! / (11! 3!)

= [14×13×12×11!] / (11! 3!)

= [14×13×12] / (3×2×1)

= 14×13×2

= 364

∴ The required no. of ways are 4368, 2002, 364.

5. There are 10 professors and 20 students out of whom a committee of 2 professors and 3 students is to be formed. Find the number of ways in which this can be done. Further, find in how many of these committees:
(i) a particular professor is included.

(ii) a particular student is included.

(iii) a particular student is excluded.

Solution:

Given:

Total number of professors = 10

Total number of students = 20

Number of ways = (choosing 2 professors out of 10 professors) × (choosing 3 students out of 20 students)

= (¹⁰C₂) × (²⁰C₃)

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁰C₂ × ²⁰C₃ = 10!/2!(10 – 2)! × 20!/3!(20-3)!

= 10!/(2! 8!) × 20!/(3! 17!)

= [10×9×8!]/(2! 8!) × [20×19×18×17!]/(17! 3!)

= [10×9]/2! × [20×19×18]/(3!)

= [10×9]/(2×1) × [20×19×18]/(3×2×1)

= 5×9 × 10×19×6

= 45 × 1140

= 51300 ways

(i) a particular professor is included.

Number of ways = (choosing 1 professor out of 9 professors) × (choosing 3 students out of 20 students)

= ⁹C₁ × ²⁰C₃

By using the formula,

ⁿC_r = n!/r!(n – r)!

⁹C₁ × ²⁰C₃ = 9!/1!(9 – 1)! × 20!/3!(20-3)!

= 9!/(1! 8!) × 20!/(3! 17!)

= [9×8!]/(8!) × [20×19×18×17!]/(17! 3!)

= 9 × [20×19×18]/(3!)

= 9× [20×19×18]/(3×2×1)

= 9 × 10×19×6

= 10260 ways

(ii) a particular student is included.

Number of ways = (choosing 2 professors out of 10 professors) × (choosing 2 students out of 19 students)

= ¹⁰C₂ × ¹⁹C₂

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁰C₂ × ¹⁹C₂ = 10!/2!(10 – 2)! × 19!/2!(19-2)!

= 10!/(2! 8!) × 19!/(2! 17!)

= [10×9×8!]/(2! 8!) × [19×18×17!]/(17! 2!)

= [10×9]/2! × [19×18]/(2!)

= [10×9]/(2×1) × [19×18]/(2×1)

= 5×9 × 19×9

= 45 × 171

= 7695 ways

(iii) a particular student is excluded.

Number of ways = (choosing 2 professors out of 10 professors) × (choosing 3 students out of 19 students)

= ¹⁰C₂ × ¹⁹C₃

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁰C₂ × ¹⁹C₃ = 10!/2!(10 – 2)! × 19!/3!(19-3)!

= 10!/(2! 8!) × 19!/(3! 16!)

= [10×9×8!]/(2! 8!) × [19×18×17×16!]/(16! 3!)

= [10×9]/2! × [19×18×17]/(3!)

= [10×9]/(2×1) × [19×18×17]/(3×2×1)

= 5×9 × 19×3×17

= 45 × 969

= 43605 ways

∴ The required no. of ways are 51300, 10260, 7695, 43605.

6. How many different products can be obtained by multiplying two or more of the numbers 3, 5, 7, 11 (without repetition)?

Solution:

Given that, we need to find the no. of ways of obtaining a product by multiplying two or more from the numbers 3, 5, 7, 11.

Number of ways = (no. of ways of multiplying two numbers) + (no. of ways of multiplying three numbers) + (no. of multiplying four numbers)

= ⁴C₂ + ⁴C₃ + ⁴C₄

By using the formula,

ⁿC_r = n!/r!(n – r)!

= 12/2 + 4 + 1

= 6 + 4 + 1

= 11

∴ The total number of ways of product is 11 ways.

7. From a class of 12 boys and 10 girls, 10 students are to be chosen for the competition, at least including 4 boys and 4 girls. The 2 girls who won the prizes last year should be included. In how many ways can the selection be made?

Solution:

Given:

Total number of boys = 12

Total number of girls = 10

Total number of girls for the competition = 10 + 2 = 12

Number of ways = (no. of ways of selecting 6 boys and 2 girls from remaining 12 boys and 8 girls) + (no. of ways of selecting 5 boys and 3 girls from remaining 12 boys and 8 girls) + (no. of ways of selecting 4 boys and 4 girls from remaining 12 boys and 8 girls)

Since two girls have already selected,

= (¹²C₆ × ⁸C₂) + (¹²C₅ × ⁸C₃) + (¹²C₄ × ⁸C₄)

By using the formula,

ⁿC_r = n!/r!(n – r)!

= (924 × 28) + (792 × 56) + (495 × 70)

= 25872 + 44352 + 34650

= 104874

∴ The total number of ways of product is 104874 ways.

8. How many different selections of 4 books can be made from 10 different books, if
(i) There is no restriction

(ii) Two particular books are always selected

(iii) Two particular books are never selected

Solution:

Given:

Total number of books = 10

Total books to be selected = 4

(i) there is no restriction

Number of ways = choosing 4 books out of 10 books

= ¹⁰C₄

By using the formula,

ⁿC_r = n!/r!(n – r)!

¹⁰C₄ = 10! / 4! (10 – 4)!

= 10! / (4! 6!)

= [10×9×8×7×6!] / (4! 6!)

= [10×9×8×7] / (4×3×2×1)

= 10×3×7

= 210 ways

(ii) two particular books are always selected

The number of ways = select 2 books out of the remaining 8 books as 2 books are already selected.

= ⁸C₂

By using the formula,

ⁿC_r = n!/r!(n – r)!

⁸C₂ = 8! / 2! (8 – 2)!

= 8! / (2! 6!)

= [8×7×6!] / (2! 6!)

= [8×7] / (2×1)

= 4×7

= 28 ways

(iii) two particular books are never selected

The number of ways = select 4 books out of the remaining 8 books as 2 books are already removed.

= ⁸C₄

By using the formula,

ⁿC_r = n!/r!(n – r)!

⁸C₄ = 8! / 4! (8 – 4)!

= 8! / (4! 4!)

= [8×7×6×5×4!] / (4! 4!)

= [8×7×6×5] / (4×3×2×1)

= 7×2×5

= 70 ways

∴ The required no. of ways are 210, 28, 70.

9. From 4 officers and 8 jawans in how many ways can 6 be chosen (i) to include exactly one officer (ii) to include at least one officer?

Solution:

Given:

Total number of officers = 4

Total number of jawans = 8

The total number of selections to be made is 6

(i) to include exactly one officer

Number of ways = (no. of ways of choosing 1 officer from 4 officers) × (no. of ways of choosing 5 jawans from 8 jawans)

= (⁴C₁) × (⁸C₅)

By using the formula,

ⁿC_r = n!/r!(n – r)!

(ii) to include at least one officer?

Number of ways = (total no. of ways of choosing 6 persons from all 12 persons) – (no. of ways of choosing 6 persons without any officer)

= ¹²C₆ – ⁸C₆

By using the formula,

ⁿC_r = n!/r!(n – r)!

= (11×2×3×2×7) – (4×7)

= 924 – 28

= 896 ways

∴ The required no. of ways are 224 and 896.

10. A sports team of 11 students is to be constituted, choosing at least 5 from class XI and at least 5 from class XII. If there are 20 students in each of these classes, in how many ways can the teams be constituted?

Solution:

Given:

Total number of students in XI = 20

Total number of students in XII = 20

Total number of students to be selected in a team = 11 (with at least 5 from class XI and 5 from class XII)

Number of ways = (No. of ways of selecting 6 students from class XI and 5 students from class XII) + (No. of ways of selecting 5 students from class XI and 6 students from class XII)

= (²⁰C₆ × ²⁰C₅) + (²⁰C₅ × ²⁰C₆)

= 2 (²⁰C₆ × ²⁰C₅) ways

11. A student has to answer 10 questions, choosing at least 4 from each of part A and part B. If there are 6 questions in part A and 7 in part B, in how many ways can the student choose 10 questions?

Solution:

Given:

Total number of questions = 10

Questions in part A = 6

Questions in part B = 7

Number of ways = (No. of ways of answering 4 questions from part A and 6 from part B) + (No. of ways of answering 5 questions from part A and 5 questions from part B) + (No. of ways of answering 6 questions from part A and 4 from part B)

= (⁶C₄ × ⁷C₆) + (⁶C₅ × ⁷C₅) + (⁶C₆ × ⁷C₄)

By using the formula,

ⁿC_r = n!/r!(n – r)!

= (15×7) + (6×21) + (1×35)

= 105 + 126 + 35

= 266

∴ The total no. of ways of answering 10 questions is 266 ways.

12. In an examination, a student to answer 4 questions out of 5 questions; questions 1 and 2 are however compulsory. Determine the number of ways in which the student can make a choice.

Solution:

Given:

Total number of questions = 5

Total number of questions to be answered = 4

The number of ways = we need to answer 2 questions out of the remaining 3 questions as 1 and 2 are compulsory.

= ³C₂

By using the formula,

ⁿC_r = n!/r!(n – r)!

³C₂ = 3!/2!(3 -2)!

= 3! / (2! 1!)

= [3×2×1] / (2×1)

= 3

∴ The no. of ways to answer the questions is 3.

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