There are many different ways to find out the unknown values of x. This chapter 4-Quadratic Equations of class 10 Maths deals with explanations of how to find the value of from a given equation when x is of unknown value and a, b, c are of known value. The theory found in the concept discussed is that an equation to be quadratic “a” should not be equal to 0. However, the equation is of the form ax2 + bx + c = 0. Also, the values of a, b, and c are always real numbers. Now, as per the latest exam pattern, more MCQs are expected to appear in the exam question paper. So, we have compiled some 20 objective questions from this chapter in this CBSE Class 10 Maths Chapter 4-Quadratic Equations Objective Questions, which the students can solve for practice.
List of Sub- Topics Covered In Chapter 4
These MCQs for CBSE Class 10 Maths Chapter 4- Quadratic Equations are prepared from the examination perspective. We have also given the list of topics, which are covered in these CBSE Class 10 Maths objective type of questions.
4.1 Introduction to Quadratic Equations (5 MCQs Listed From This Topic)
4.2 Solving QE by Factorisation (5 MCQs From The Topic)
4.3 Solving QE by completing square (5 MCQs Listed From The Topic)
4.4 Solving QE using quadratic formula (5 MCQs From This Topic)
Download Free CBSE Class 10 Maths Chapter 4-Quadratic Equations Objective Questions PDF
Introduction to Quadratic Equations
-
- What is the degree of a quadratic equation?
- 0
- 2
- 3
- 1
- What is the degree of a quadratic equation?
Answer: (B) 2
Solution: The standard form of quadratic equation is ax2 + bx + c = 0, a ≠ 0. So the degree of a quadratic equation is 2
-
- Find the sum of the roots of the equation x2–8x+2=0
- 8
- -8
- 2
- -6
- Find the sum of the roots of the equation x2–8x+2=0
Answer: (A) 8
Solution: For general quadratic equation ax2+bx+c=0.
Sum of the roots=−b/a
For x2–8x+2=0
Sum of the roots = − (−8/1) =8
Sum of the roots of the equation is 8
-
- Which of the following is not quadratic equation?
- x(2x + 3) = x2+ 1
- x(x + 1) + 8 = (x + 2) (x – 2)
- (x+2)3=x3-4
- (x–2)2+ 1 = 2x -3
- Which of the following is not quadratic equation?
Answer: (B) x(x + 1) + 8 = (x + 2) (x – 2)
Solution: (a) (x−2)2+ 1 = (2x – 3)
x2 – 4x + 4 + 1 = 2x – 3
x2 – 4x + 4 + 1 – 2x + 3 = 0
x2 – 6x + 8 = 0
This is a quadratic equation.
(b) (x+2)3= x3 – 4
x3 + 6x2 + 12x + 8 = x3 – 4
6x2 + 12x + 12 = 0
This is a quadratic equation.
(c) x(2x + 3) = x2 + 1
2x2 + 3x = x2+1
x2 +3x -1 = 0
This is a quadratic equation.
(d) x(x + 1) + 8 = (x + 2) (x – 2)
x2 + x + 8 = x2 – 4
x+12 = 0
This is not a Quadratic equation.
-
- If the sum of the roots of a quadratic equation is 5 and the product of the roots is also 5, then the equation is
- x2+10x+5=0
- x2–5x+5=0
- x2+5x–5=0
- x2–5x+10=0
- If the sum of the roots of a quadratic equation is 5 and the product of the roots is also 5, then the equation is
Answer: (B) x2–5x+5=0
Solution: For a quadratic equation ax2+bx+c=0,
sum of roots = −ba
product of roots = ca.
sum of roots =5 = −ba
product of roots = 5 = ca,
Thus, quadratic equation is x2−5x+5=0
-
- A rectangular field has an area of 3 sq. units. The length is one more than twice the breadth ‘x’. Frame an equation to represent this.
- x2 – 2x+6=0
- x2 – 2x+3=0
- 2x2+x−3=0
- 2x2+x−6=0
- A rectangular field has an area of 3 sq. units. The length is one more than twice the breadth ‘x’. Frame an equation to represent this.
Answer: (C) 2x2+x−3=0
Solution: Area of rectangle = length×breadth
Given, length = (2×breadth + 1)
Let the breadth of the field be x.
Length of the field = 2x+1
Area of the rectangular field = x (2x+1) =3
2x2+x=3
2x2+x−3=0
Solving QE by factorisation
-
- The roots of the quadratic equation x2+5x-14=0 is
- 2, 7
- -2, 7
- -2, -7
- 2, -7
- The roots of the quadratic equation x2+5x-14=0 is
Answer: (D) 2, -7
Solutions: x2+5x-14=0
We need to split the coefficient of x such that the sum
of the factors is 5 and their product is -14.
So we will find the coefficient as 7 and -2.
The sum of 7 and -2 is 5 and product is -14.
So now re-write the equation
x2+7x-2x-14=0
Taking common terms out
x(x+7)-2(x+7) =0
Again taking out the common terms
(x-2)(x+7)=0
Now equate the factors to zero to find the roots.
So the roots of the equation are 2,-7
-
- Factorize x2 +5x+6 =0
- (x-1)(x-3)
- (x+1)(x+3)
- (x-2)(x-3)
- (x+2)(x+3)
- Factorize x2 +5x+6 =0
Answer: (D) (x+2) (x+3)
Solution: Comparing x2 +5x+6 =0 to ax2 + bx+ c = 0, we have a=1, b=5 and c=6
Now, we need to find two numbers whose product is 6 and whose sum is 5
Pairs of numbers whose product is 6
1, 6
-1,-6
2, 3
-2,-3
Of these pairs, the pair that gives the sum 5 is the third pair
Identifying the pair, we rewrite the given quadratic equation as
x2 +5x+6= x2 +2x+3x+6 = x(x+2) +3(x+2)
= (x+2) (x+3)
-
- The altitude of a right triangle is 7 cm less than its base. If the hypotenuse is 13 cm, find the other two sides (in cm).
- 12, 5
- 7,2
- 5,3
- 2,5
- The altitude of a right triangle is 7 cm less than its base. If the hypotenuse is 13 cm, find the other two sides (in cm).
Answer: (A) 12, 5
Solutions:
Let the base = x cm
Given that the altitude of a right triangle is 7 cm less than its base
Altitude is = x – 7 cm
Given that hypotenuse = 13cm
Applying Pythagoras theorem,
base2+ altitude2 = hypotenuse2
Substituting the values, we get
⇒ x2 + (x−7)2 = 132
⇒ x2 + x2 + 49 – 14x = 169
⇒ 2x2 – 14x + 49 – 169 = 0
⇒ 2x2 – 14x – 120 = 0
Dividing with 2 on both sides the above equation simplifies to
⇒ x2 – 7 x – 60 = 0
⇒ x2 – 12 x + 5 x – 60 = 0
⇒ x (x – 12) + 5 ( x – 12) = 0
⇒ (x – 12) (x + 5) = 0
⇒ x – 12 = 0 or x + 5 = 0
⇒ x = 12 or x = –5
Length cannot be negative so x cannot be equal to – 5
base x = 12cm; altitude = 12 – 7 = 5cm
-
- If a train travelled 5 km/hr faster, it would take one hour less to travel 210 km. The speed of the train is :
- 60 km/hr
- 70 km/hr
- 35 km/hr
- 30 km/hr
- If a train travelled 5 km/hr faster, it would take one hour less to travel 210 km. The speed of the train is :
Answer: (D) 30 km/hr
Solution: Let the speed of the train be x km/hr.
Distance travelled = 210 km
Time taken to travel 210 km = 210/x hours
When the speed is increased by 5 km/h, the new speed is (x+5)
Time taken to travel 210 km with the new speed is 210 / (x+5) hours
According to the question,
210/x−210/(x+5)=1
⇒210(x+5)−210x=x(x+5)
⇒210x+1050−210x=x2+5x
⇒x2+5x−1050=0
⇒(x+35)(x−30)=0
⇒x= −35, 30
The speed cannot be negative. Thus, the speed of the train is 30 km/hr
-
- If the solutions of the equation x2+3x−18=0 are -6, 3 then the roots of the equation 2(x2+3x−18)=0 are
- 3, 3
- -6, 3
- -12, 6
- -6, 6
- If the solutions of the equation x2+3x−18=0 are -6, 3 then the roots of the equation 2(x2+3x−18)=0 are
Answer: (B) -6, 3
Solution: The roots of a quadratic equation do not change when it is multiplied by a constant non-zero real number. So when the equation x2+3x−18=0 is multiplied by 2, the roots still remain the same i.e. -6, 3.
Solving QE by completing square
-
- The square of (5x + 1) is equal to 16. What isx?
- x = 4, ¼
- x =- 1,3/5
- x = 1,3/2
- x= -1, 4/5
- The square of (5x + 1) is equal to 16. What isx?
Answer: (B) x =- 1, 3/5
Solution: Converting statement into an equation-
⇒ (5x+1)2 =16 (Applying (a+b)2 formula)
⇒5x + 1 = ± 4(Taking square root on both sides)
⇒5x = -5, 3
⇒x=−1, 3/5
-
- Using the method of completion of squares find one of the roots of the equation 2x2−7x+3=0. Also, find the equation obtained after completion of the square.
- 6, (x−7/4)2−25/16=0
- 3, (x−7/4)2−25/16=0
- 3, (x−7/2)2−25/16=0
- 13, (x−7/2)2−25/16=0
- Using the method of completion of squares find one of the roots of the equation 2x2−7x+3=0. Also, find the equation obtained after completion of the square.
Answer: (B) 3, (x−7/4)2−25/16=0
Solution: 2x2−7x+3=0
Dividing by the coefficient of x2, we get
x2−7/2x+3/2=0; a=1, b=7/2, c=3/2
Adding and subtracting the square of b/2=7/4, (half of coefficient of x)
We get, [x2−2 (7/4) x+ (7/4)2] − (7/4)2+3/2=0
The equation after completing the square is:
(x−7/4)2−25/16=0
Taking square root, (x−7/4) = (±5/4)
Taking positive sign 5/4, x=3
Taking negative sign −5/4, x=1/2
-
- Find the roots of the equation 5x2–6x–2=0 by the method of completing the square.
- x=3
- x=(5± √19)/3
- x= (3± √19)/ 5
- x=5
- Find the roots of the equation 5x2–6x–2=0 by the method of completing the square.
Answer: (C) x= (3± √19)/ 5
Solution: Multiplying the equation throughout by 5, we get 25x2–30x–10=0
This is the same as:
(5x) 2–[2× (5x) ×3] +32–32–10=0
⇒ (5x–3)2–9–10=0
⇒(5x–3)2–19=0
⇒(5x–3)2=19
⇒5x−3=± √19
⇒x= (3± √19)/ 5
-
- There is a natural number x. Write down the expression for the product of x and its next natural number.
- 2x2+1
- x2– x
- x2+ x
- ( x + 1)( x+2)
- There is a natural number x. Write down the expression for the product of x and its next natural number.
Answer: (C) x2+ x
Solution: If a natural number is x, the next natural number is greater than x by 1 and hence x+1. For eg. For 3, next natural number is 4. The product of the 2 numbers is x(x+1) =x2+ x
-
- What number should be added to x2+6x to make it a perfect square?
- 36
- 18
- 9
- 72
- What number should be added to x2+6x to make it a perfect square?
Answer: (C) 9
Solution: The identity (a+b) 2= (a2+2ab+b2) represents a perfect square.
If we observe carefully we can see that x2+6x can be written in the form of (a2+2ab+b2) by adding a constant.
x2+2(x) (3) +constant.
To make x2+6x a perfect square, divide the co efficient of x by 2 and then add the square of the result to make this a perfect square.
Hence, 6/2=3 and 32 = 9
We should add 9 to make x2+6x a perfect square.
Solving QE using quadratic formula
-
- The equation x2+4x+c=0 has real roots, then
- C ≥ 6
- C ≤ 8
- C ≤ 4
- C ≥ 4
- The equation x2+4x+c=0 has real roots, then
Answer: (C) C ≤ 4
Solution: Step 1:- For, x2+4x+c=0, value of discriminant D=42–4c=16−4c
Step 2:- The roots of quadratic equation are real only when D ≥ 0
16–4c ≥ 0
Step 3:- c ≤ 4
-
- Find the discriminant of the quadratic equation 3x2–5x+2=0 and hence, find the nature of the roots.
- –1, no real roots
- 1, two equal roots
- –1, two distinct real roots
- 1, two distinct real roots
- Find the discriminant of the quadratic equation 3x2–5x+2=0 and hence, find the nature of the roots.
Answer: (D) 1, two distinct real roots
Solution: D = b2–4ac= (–5)2–4×3×2=1>0
D = 1>0⇒ Two distinct real roots.
-
- Taylor purchased a rectangular plot of area 634 m2. The length of the plot is 2 m more than thrice its breadth. Find the length and breadth (approximate values).
- 34.6 m & 11.20 m
- 44.6 m & 14.20 m
- 32 m & 16 m
- 88 m & 24 m
- Taylor purchased a rectangular plot of area 634 m2. The length of the plot is 2 m more than thrice its breadth. Find the length and breadth (approximate values).
Answer: (B) 44.6 m & 14.20 m
Solution: Let x and y be the length and breadth of the rectangle respectively.
Given, x=2+3y
Area of the rectangle=length × breadth
=xy
⇒634= (2+3y) y
⇒634=2y+3y2
So, 3y2+2y−634=0
The roots of the above quadratic equation will be
⇒ y=14.20 or
y= -14.87
Considering positive value for breadth, we have y=14.20.
Using x=2+3y, we have
x=2+3(14.20) =44.6
Now, we have
x=44.6 and y=14.20 (approximately).
-
- If the equation x2+2(k+2) x+9k=0 has equal roots, then values of k are __________.
- 1,4
- -1,5
- -1,-4
- 1,-5
- If the equation x2+2(k+2) x+9k=0 has equal roots, then values of k are __________.
Answer: (A) 1, 4
Solution: Step 1:- For, x2+2(k+2) x+9k=0, value of discriminant D= [2(k+2)] 2–4(9k) =4(K2+4−5k)
Step 2:- The roots of quadratic equation are real and equal only when D=0
k2+4−5k=0
⇒k2−5k+4=0
⇒k2−k−4k+4=0
⇒k(k−1)−4(k−1)=0
⇒(k−1)(k−4)=0
Step 3:- k=4 or 1
-
- Find the roots of the 3x2 – 5x + 2 = 0 quadratic equation, using the quadratic formula.
- (7±1)/6
- (4±1)/ 6
- (5±2)/ 6
- (5±1)/ 6
- Find the roots of the 3x2 – 5x + 2 = 0 quadratic equation, using the quadratic formula.
Answer: (D) (5±1)/ 6
Solution: Quadratic equation of the form ax2 + bx + c = 0
The roots of the above quadratic equation will be
CBSE Class 10 Maths Chapter 4 Extra MCQs
1. Which are the two consecutive odd postitive intergers, the sum of whose square is 290?
(a) 13, 15
(b) 7, 9
(c) 11, 13
(d) 5, 7
2. The 7th and 13th term of an A.P are 34 and 64 respectively. Then, what is the 18th term?
(a) 90
(b) 89
(c) 87
(d) 88
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