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Class 10 RD Sharma Solutions - Chapter 2 Polynomials - Exercise 2.3
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Class 10 RD Sharma Solutions- Chapter 2 Polynomials - Exercise 2.2

Last Updated : 28 Aug, 2024
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In this article, we will explore the solutions to Exercise 2.2 from Chapter 2 of RD Sharma's Class 10 Mathematics textbook which focuses on the "Polynomials". This chapter is fundamental for understanding the basics of polynomials their properties and how to manipulate them. By solving Exercise 2.2 students will gain hands-on experience in applying polynomial concepts and enhance their problem-solving skills.

Polynomials

The Polynomials are mathematical expressions involving a sum of powers of a variable multiplied by the coefficients. They are categorized by their degree which is the highest power of the variable in the expression. For example: 3x2+2x−5 is a polynomial of degree 2. Understanding polynomials involves operations like addition, subtraction, multiplication, and factorization which are crucial for solving a variety of algebraic problems.

Q1. Verify that the numbers given alongside of the cubic polynomials below are their zeroes. Also, verify the relationship between the zeros and coefficients in each of the following cases:

(i) f(x) = 2x3 + x2 - 5x + 2; 1/2, 1, -2

Solution:

For the followings numbers to be the zeros of polynomial they must satisfy the following equation i.e. f(x)=0 so now checking:

When x = 1/2

 f(1/2) = 2(1/2)3 + (1/2)2 - 5(1/2) + 2 

f(1/2) = 1/4 + 1/4 - 5/2 + 2 = 0 

f(1/2) = 0,    

Hence, x = 1/2 is a zero of the given polynomial.

When x = 1

f(1) = 2(1)3 + (1)2 - 5(1) + 2

f(1) = 2 + 1 - 5 + 2 = 0 

f(1) = 0,  

Hence, x = 1 is also a zero of the given polynomial.

When x = -2 

f(-2) = 2(-2)3 + (-2)2 - 5(-2) + 2 

f(-2) = -16 + 4 + 10 + 2 = 0 

f(-2) = 0,   

Hence, x = -2 is also a zero of the given polynomial.

We know that Sum of zeros = -b/a;

Sum of the products of the zeros taken two at a time = c/a; 

Product of zeros = -d/a;

Here sum=1/2 + 1 - 2 =-1/2 and -b/a=-1/2

Here sum of products=(1/2 * 1) + (1 * -2) + (1/2 * -2) =-5/2 and c/a=-5/2

Here product =1/2 x 1 x (- 2) = -1 and -d/a=-1

Hence, the relationship between the zeros and coefficients is verified.

(ii) g(x) = x3 – 4x2 + 5x – 2; 2, 1, 1

Solution: 

For the followings numbers to be the zeros of polynomial they must satisfy the following equation ie. g(x)=0 so now checking:

When x = 2 

g(2) = (2)3 - 4(2)2 + 5(2) - 2 

g(2) = 8 - 16 + 10 - 2 = 0 

g(2) = 0, 

Hence, x = 2 is a zero of the given polynomial.

Now we have two same roots, so we will check only once.

When x = 1 

g(1) = (1)3 - 4(1)2 + 5(1) - 2 

g(1) = 1 - 4 + 5 - 2 = 0 

g(1) = 0, 

Hence, x = 1 is also a zero of the given polynomial.

We know that Sum of zeros = -b/a;

Sum of the products of the zeros taken two at a time = c/a; 

Product of zeros = - d/a;

Here sum=2+1+1= 4 and -b/a=4 

Here sum of products=(1 * 1) + (1 * 2) + (2 * 1) =5 and c/a =5

Here product = 2*1*1=2 and -d/a=2

Hence, the relationship between the zeros and coefficients is verified.

Question 2. Find a cubic polynomial with the sum, sum of the product of its zeroes taken two at a time, and product of its zeros as 3, -1, and -3 respectively.

Solution: 

A cubic polynomial say, f(x) is of the form ax3 + bx2 + cx + d.

We know that f(x) = k [x3 - (sum of roots)x2 + (sum of products of roots taken two at a time)x -(product of roots)]

Sum of roots = 3; 

Sum of products of roots taken two at a time=-1; 

Product of roots=-3

f(x) = k [x3 - (3)x2 + (-1)x - (-3)]

∴ f(x) = k [x3 - 3x2 - x + 3)]

Required polynomial f(x) = k [x3 - (3)x2 + (-1)x - (-3)]

∴ f(x) = k[x3 - 3x2 - x + 3)]

Question 3. If the zeros of the polynomial f(x) = 2x3 – 15x2 + 37x – 30 are in A.P., find them.

Solution:

 Let the roots be α = a - d, β = a and γ = a +d, Where, a is the first term and d is the common difference.

From given f(x), a= 2, b= -15, c= 37 and d= 30

=> Sum of roots = α + β + γ = (a – d) + a + (a + d) = 3a = (-b/a) = -(-15/2) = 15/2

 So, calculating for a, we get 3a = 15/2 i.e. a = 5/2

=> Product of roots = (a – d) x (a) x (a + d) = a(a2 –d2) = -d/a = -(30)/2 = 15 i.e. a(a2 –d2) = 15

Substituting 'a' we get ∴ d = 1/2 or -1/2

When d=1/2

Roots are α = 5/2-1/2, β = 5/2 and γ = 5/2 +1/2 i.e. α = 2, β = 2.5 and γ = 3

When d=-1/2

Roots are α = 5/2-(-1/2), β = 5/2 and γ = 5/2 +(-1/2) i.e. α = 3, β = 2.5 and γ = 2

Question 4. Find the condition that the zeros of polynomial f(x) = x3+3px2+3qx+r may be in A.P.

Solution:

 Let the roots be α = A - D, β = A and γ = A +D, Where, A is the first term and D is the common difference.

sum = A-D+A+A+D = -b/a i.e. 3A=-3b so, A=-b

Since β = A is a root so f(A)=0;

a3+3pa2+3qa+r=0

Now put a=-p; so, we get

2p2-3pq+r=0 is the required condition.

Question 5. If the zeros of the polynomial f(x) = ax3+3bx2+3cx+d are in A.P. Prove that 2b3-3abc+a2d = 0. 

Solution:

Let the roots be α = A - D, β = A and γ = A +D, Where, A is the first term and D is the common difference.

sum = A-D+A+A+D = -b/a i.e. 3A=-3b/a so, A=-b/a

Now f(A)=0 so,

f(x)=aA3+3bA2+3cA+d   

Now put A=-b/a; So, we get: 

2b3-3abc+a2d =0

Hence, proved.

Question 6. If the zeros of the polynomial f(x) = x3-12x2+39x+k are in A.P, find the value of k.

Solution:

Let the roots be α = A - D, β = A and γ = A +D, Where, A is the first term and D is the common difference.

sum = A-D+A+A+D = -b/a i.e., 3A=12 so, A=4

f(β)=0 i.e. f(A)=0

(4)3-12(4)2+39(4)+k=0

64-192+156+k=0

28+k=0

k=-28

Read More:

  • What are Polynomials?
  • Polynomial Formula

Summary

Exercise 2.2 of RD Sharma's Class 10 Mathematics textbook focuses on the division algorithm for polynomials. This section covers how to divide polynomials using long division and synthetic division methods. Students learn to find quotients and remainders when dividing polynomials, and understand the relationship between the degree of the dividend, divisor, quotient, and remainder. The exercise also includes problems on the factor theorem and applications of polynomial division in solving various mathematical problems.


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    Chapter 6: Trigonometric Identities

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    Prove the following trigonometric identities:Question 1. (1 – cos2 A) cosec2 A = 1 Solution: We have, L.H.S. = (1 – cos2 A) cosec2 A By using the identity, sin2 A + cos2 A = 1, we get, = (sin2 A) (cosec2 A) = sin2 A × (1/sin2 A) = 1 = R.H.S. Hence proved. Question 2. (1 + cot2 A) sin2 A = 1 Solution
    7 min read
    Class 10 RD Sharma Solutions - Chapter 6 Trigonometric Identities - Exercise 6.1 | Set 2
    Prove the following trigonometric identities:Question 29. \frac{1+secθ}{secθ}=\frac{sin^2θ}{1-cosθ} Solution: We have, L.H.S. = \frac{1+secθ}{secθ} = \frac{1+\frac{1}{cosθ}}{\frac{1}{cosθ}} = \frac{cosθ+1}{cosθ}×{\frac{cosθ}{1}} = 1 + cos θ = \frac{(1+cosθ)(1-cosθ)}{1-cosθ} = \frac{1-cos^2θ}{1-cosθ}
    7 min read
    Class 10 RD Sharma Solutions - Chapter 6 Trigonometric Identities - Exercise 6.1 | Set 3
    The Trigonometric identities are fundamental formulas in trigonometry that relate the angles and sides of the triangles. These identities simplify trigonometric expressions and solve the equations involving trigonometric functions. In Class 10 RD Sharma's Chapter 6 on the Trigonometric Identities Ex
    13 min read
    Class 10 RD Sharma Solutions - Chapter 6 Trigonometric Identities - Exercise 6.2
    In Chapter 6 of RD Sharma's Class 10 Mathematics textbook, we explore Trigonometric Identities a fundamental topic in trigonometry. Exercise 6.2 focuses on applying various trigonometric identities to solve problems and simplify expressions. Understanding these identities is crucial for solving comp
    8 min read

    Chapter 7: Statistics

    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.1 | Set 1
    Problem 1: Calculate the mean for the following distribution:x:56789f:4 814113 Solution: x ffx542068487 1498811889327 N = 40 ∑ fx = 281 We know that, Mean = ∑fx/ N = 281/40 = 7.025 Problem 2: Find the mean of the following data :x:19212325272931f:13151618161513 Solution: x ffx19132472115315231636825
    4 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.1 | Set 2
    Problem 11: Five coins were simultaneously tossed 1000 times and at each toss, the number of heads was observed. The number of tosses during which 0, 1, 2, 3, 4, and 5 heads were obtained are shown in the table below. Find the mean number of heads per toss.No. of heads per tossNo. of tosses 03811442
    3 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.2
    Question1: The number of telephone calls received at an exchange per interval for 250 successive one-minute intervals are given in the following frequency table:Number of calls (x) 0 1 2 3 4 5 6 Number of intervals (f) 15 24 29 46 54 43 39 Compute the mean number of calls per interval. Solution: Let
    6 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.3 | Set 1
    Chapter 7 of RD Sharma’s Class 10 textbook focuses on Statistics a fundamental area in mathematics that deals with data collection, analysis, interpretation, and presentation. Exercise 7.3 | Set 1 of this chapter covers the various problems designed to enhance students' understanding and application
    8 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.3 | Set 2
    Question 14. Find the mean of the following frequency distribution:Class interval:25 – 2930 – 3435 – 3940 – 4445 – 4950 – 5455 – 59Frequency:1422166534 Solution: Let’s consider the assumed mean (A) = 42 Class intervalMid – value xidi = xi – 42ui = (xi – 42)/5fifiui25 – 2927-15-314-4230 – 3432-10-222
    13 min read
    Class 10 RD Sharma Solution - Chapter 7 Statistics - Exercise 7.4 | Set 1
    In this article, we will explore the solutions to Exercise 7.4 from Chapter 7 of RD Sharma's Class 10 Mathematics textbook which focuses on Statistics. This chapter is crucial as it lays the foundation for understanding how data is collected, organized, analyzed, and interpreted in the various field
    8 min read
    Class 10 RD Sharma Solution - Chapter 7 Statistics - Exercise 7.4 | Set 2
    Question 11. An incomplete distribution is given below :Variable10-2020-3030-4040-5050-6060-7070-80Frequency1230-65-2518You are given that the median value is 46 and the total number of items is 230. (i) Using the median formula fill up missing frequencies. (ii) Calculate the AM of the completed dis
    9 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.5 | Set 1
    Statistics is a branch of mathematics dealing with data collection, analysis, interpretation, and presentation. It provides methods for summarizing and drawing conclusions from the data which is essential in various fields such as economics, sociology, and science. Chapter 7 of RD Sharma's Class 10
    9 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.5 | Set 2
    Question 11. Find the mean, median, and mode of the following data:Classes0-5050-100100-150150-200200-250250-300300-350Frequency2356531 Solution: Let mean (A) = 175 Classes Class Marks (x) Frequency (f) c.f. di = x - A A = 175 fi * di0-502522-150-30050-1007535-100-300100-150125510-50-250150-200175-A
    8 min read
    Class 10 RD Sharma Solutions - Chapter 7 Statistics - Exercise 7.6
    Chapter 7 of RD Sharma's Class 10 textbook focuses on Statistics a branch of mathematics that deals with the collection, analysis, interpretation, and presentation of data. This chapter is crucial for understanding how to summarize and make sense of numerical data in various contexts. The aim is to
    8 min read

    Chapter 8: Quadratic Equations

    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.1
    Question 1. Which of the following are quadratic equations?(i) x2 + 6x - 4 = 0 Solution: As we know that, quadratic equation is in form of: ax2 + bx + c = 0 Here, given equation is x2 + 6x - 4 =0 in quadratic equation. So, It is a quadratic equations. (ii) √3x2 − 2x + ½= 0 Solution: As we know that,
    12 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.2
    Quadratic equations are a fundamental concept in algebra that involves a polynomial of degree two. They play a crucial role in various fields of mathematics, physics, engineering, and many other disciplines. Understanding quadratic equations is essential for solving problems related to motion, area,
    5 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.3 | Set 1
    Solve the following quadratic equations by factorizationQuestion 1. (x - 4) (x + 2) = 0 Solution: We have equation, (x - 4) (x + 2) = 0 Implies that either x - 4 = 0 or x + 2 = 0 Therefore, roots of the equation are 4 or -2. Question 2. (2x + 3) (3x - 7) = 0 Solution: We have equation, (2x + 3) (3x
    8 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.3 | Set 2
    The Quadratic equations are fundamental to algebra and appear frequently in various mathematical contexts. They play a crucial role in understanding polynomial functions and solving real-world problems. In this article, we will delve into Exercise 8.3 | Set 2 from RD Sharma’s Class 10 Mathematics bo
    10 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.4
    Question 1: Find the roots of the following quadratic (if they exist) by the method of completing the square: x^2-4\sqrt{2x}+6=0 . Solution: Given: x^2-4\sqrt{2x}+6=0 We have to make the equation a perfect square. => x^2-4\sqrt{2x} = -6 => x^2 - 2\times2\sqrt{2x} + (2\sqrt{2})^2 = -6 + (2\sqrt
    5 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.5
    Question 1. Find the discriminant of the following quadratic equations:(i) 2x2 - 5x + 3 = 0 Solution: Given quadratic equation: 2x2 - 5x + 3 = 0 ....(1) As we know that the general form of quadratic equation is ax2 + bx + c = 0 ....(2) On comparing eq(1) and (2), we get Here, a = 2, b = -5 and c = 3
    15+ min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.6 | Set 1
    Question 1. Determine the nature of the roots of following quadratic equations : (i) 2x² – 3x + 5 = 0 (ii) 2x² – 6x + 3 = 0 (iii) 3/5 x² – 2/3 x + 1 = 0 (iv) 3x² – 4√3 x + 4 = 0 (v) 3x² – 2√6 x + 2 = 0 Solution: (i) 2x² – 3x + 5 = 0 Here a=2, b=-3, c=5 D=b2-4ac=(-3)2-4*2*5 =-9-40=-31 D<0 Roots ar
    9 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.6 | Set 2
    Question 11. If – 5 is a root of the quadratic equation 2x² + px – 15 = 0 and the quadratic equation p(x² + x) + k = 0 has equal-roots, find the value of k. Solution: 2x² + px – 15 = 0 -5 is its one root It will satisfy it 2(-5)2+p(-5)-15=0 2*25-5p-15=0 50-15-5p=0 -5p+35=0 -5p=-35 p=-35/-5=7 Now in
    6 min read
    Class 10 RD Sharma Solutions- Chapter 8 Quadratic Equations - Exercise 8.7 | Set 1
    Question 1: Find two consecutive numbers whose squares have the sum 85. Solution: Let first number is = x ⇒ Second number = (x+1) Now according to given condition— ⇒ Sum of squares of the numbers = 85 ⇒ x2 + (x+1)2 = 85 ⇒ x2 + x2 + 2x + 1 = 85 [ because (a+b)2 = a2 + 2ab + b2] ⇒ 2x2 + 2x + 1 - 85 =
    8 min read
    Class 10 RD Sharma Solutions – Chapter 8 Quadratic Equations – Exercise 8.7 | Set 2
    Question 11: The sum of a number and its square is 63/4 , find the numbers. Solution: Let the number is = x so it's square is = x2 Now according to condition- ⇒(number)+(number)2=63/4 ⇒ x+x2 = 63/4 ⇒ x2+x-63/4=0 Multiplying by 4- ⇒ 4x2+4x-63=0 ⇒ 4x2 +(18-14)x - 63 =0 [because 63*4=252 so 18*14=252
    5 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.8
    Chapter 8 of RD Sharma's Class 10 textbook focuses on the Quadratic Equations an essential topic in mathematics that lays the foundation for understanding more advanced algebraic concepts. In this chapter, students will learn how to solve quadratic equations using various methods such as factorizati
    15+ min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.9
    The Quadratic equations are a fundamental topic in algebra often introduced at the Class 10 level. They are equations of the form ax2 +bx+c=0 where a, b, and c are constants and x is the variable. Understanding quadratic equations is crucial as they form the basis for many mathematical concepts and
    9 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.10
    Question 1. The hypotenuse of a right triangle is 25 cm. The difference between the lengths of the other two sides of the triangle is 5 cm. Find the lengths of these sides. Solution: Let the length of other two sides of the triangle be x and y. Therefore, according to the question, x - y = 5 or, x =
    5 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.11
    Question 1: The perimeter of the rectangular field is 82 m and its area is 400 m2. Find the breadth of the rectangle? Solution: Given: Perimeter = 82 m and its area = 400 m2 Let the breadth of the rectangle be 'b' m. As we know, Perimeter of a rectangle = 2×(length + breadth) 82 = 2×(length + b) 41
    6 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.12
    Question 1: A takes 10 days less than the time taken by B to finish a piece of work. If both A and B together can finish the work in 12 days, find the time taken by B to finish the work. Solution: Let us assume that B takes 'x' days to complete a piece of work. So, B’s 1 day work = 1/x Now, A takes
    3 min read
    Class 10 RD Sharma Solutions - Chapter 8 Quadratic Equations - Exercise 8.13
    Question 1. A piece of cloth costs ₹ 35. If the piece were 4 m longer and each meter costs ₹ 1 less, the cost would remain unchanged. How long is the piece? Solution: Let us considered the length of piece of cloth = x m Given: The total cost = ₹ 35 So, the cost of 1 m cloth = ₹ 35/x According to the
    11 min read

    Chapter 9: Arithmetic Progressions

    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progression Exercise 9.1
    Problem 1: Write the first terms of each of the following sequences whose nth term are:(i) an = 3n + 2 Solution: Given: an = 3n + 2 By putting n = 1, 2, 3, 4, 5 we get first five term of the sequence a1 = (3 × 1) + 2 = 3 + 2 = 5 a2 = (3 × 2) + 2 = 6 + 2 = 8 a3 = (3 × 3) + 2 = 9 + 2 = 11 a4 = (3 × 4)
    7 min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.2
    Problem 1: Show that the sequence defined by an = 5n – 7 is an A.P., find its common difference. Solution: Given: an = 5n – 7 Now putting n = 1, 2, 3, 4,5 we get, a1 = 5.1 – 7 = 5 – 7 = -2 a2 = 5.2 – 7 = 10 – 7 = 3 a3 = 5.3 – 7 = 15 – 7 = 8 a4 = 5.4 – 7 = 20 – 7 = 13 We can see that, a2 – a1 = 3 – (
    7 min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.3
    Problem 1: For the following arithmetic progressions write the first term a and the common difference d:(i) -5, -1, 3, 7, ………… Solution: Given sequence is -5, -1, 3, 7, ………… ∴ First term is -5 And, common difference = a2 - a1 = -1 - (-5) = 4 ∴ Common difference is 4 (ii) 1/5, 3/5, 5/5, 7/5, …… Solut
    10 min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.4 | Set 1
    In arithmetic progressions (AP), the terms follow a consistent pattern where each term is derived from the previous one by adding a fixed value, known as the common difference. To analyze various aspects of APs, such as finding specific terms or determining the number of terms, certain formulas and
    15+ min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.4 | Set 2
    Question 14. The 4th term of an A.P. is three times the first and the 7th term exceeds twice the third term by 1. Find the first term and the common difference. Solution: Let’s assume that the first term and the common difference of the A.P to be a and d respectively. Given that, 4th term of an A.P.
    10 min read
    Class 10 RD Sharma Solutions- Chapter 9 Arithmetic Progressions - Exercise 9.5
    Question 1: Find the value of x for which (8x + 4), (6x – 2) and (2x + 7) are in A.P. Solution: Since (8x + 4), (6x – 2) and (2x + 7) are in A.P. Now we know that condition for three number being in A.P.- ⇒2*(Middle Term)=(First Term)+(Last Term) ⇒2(6x-2)=(8x+4)+(2x+7) ⇒12x-4=10x+11 ⇒(12x-10x)=11+4
    5 min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.6 | Set 1
    Class 10 RD Sharma Solutions are comprehensive guides to the exercises and problems presented in the RD Sharma Mathematics textbook, which is a popular reference for students studying mathematics at the 10th class level. These solutions provide step-by-step explanations and answers to the questions
    15+ min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.6 | Set 2
    Question 25. In an A.P. the first term is 22, nth term is –11 and the sum of first n term is 66. Find n and the d, the common difference. Solution: Given A.P. has first term(a) = 22, nth term(an) = –11 and sum(Sn) = 123. Now by using the formula of sum of n terms of an A.P. Sn = n[a + an] / 2 =>
    15+ min read
    Class 10 RD Sharma Solutions - Chapter 9 Arithmetic Progressions - Exercise 9.6 | Set 3
    Question 49. Find the sum of first n odd natural numbers. Solution: First odd natural numbers are 1, 3, 5, 7, . . .2n – 1. First term(a) = 1, common difference(d) = 3 – 1 = 2 and nth term(an) = 2n – 1. Now by using the formula of sum of n terms of an A.P. Sn = n[a + an] / 2 So, = n[1 + 2n – 1] / 2 =
    15+ min read
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