Class 10 RD SHARMA Solutions Maths Chapter 4 - Quadratic Equations

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Ex. 4.1

Ex. 4.2

Ex. 4.3

Ex. 4.4

Ex. 4.5

Ex. 4.6

Ex. 4.7

Ex. 4.8

Ex. 4.9

Ex. 4.10

Ex. 4.11

Ex. 4.12

Ex. 4.13

4.82

4.83

4.84

4.85

Quadratic Equations Exercise Ex. 4.1

Solution 1 (i)

Solution 1 (ii)

Solution 1 (iii)

Solution 1 (iv)

Solution 1 (v)

Solution 1(vi)

Solution 1 (vii)

Solution 1 (viii)

Solution 1 (ix)

Solution 1 (x)

Solution 1 (xi)

Solution 1 (xii)

Solution 1 (xiii)

Solution 1 (xiv)

Solution 1 (xv)

Solution 2 (i)

Solution 2 (ii)

Solution 2 (iii)

Solution 2 (iv)

Solution 2 (v)

= 2x²- x + 9 – x²+ 4x + 3

= x² - 5x + 6 = 0

Here, LHS = x² - 5x + 6 and RHS = 0

Substituting x = 2 and x = 3

= x² - 5x + 6

= (2)² – 5(2) + 6

=10-10

= RHS

= x² - 5x + 6

= (3)2 – 5(3) + 6

= 9 - 15 + 6

=15 - 15

= RHS

x = 2 and x = 3 both are the solutions of the given quadratic equation.

Solution 2 (vi)

Solution 2 (vii)

Solution 3 (i)

Solution 3 (ii)

Solution 3 (iii)

Solution 3 (iv)

Solution 4

Solution 5

Quadratic Equations Exercise Ex. 4.2

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Quadratic Equations Exercise Ex. 4.3

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Solution 11

Solution 12

Solution 13

Solution 14

Solution 15

Solution 16

Solution 17

Solution 18

Solution 19

Solution 20

Solution 21

Solution 22

Solution 23

Solution 24

Solution 25

Solution 26

Solution 27

Solution 28

Solution 29

Solution 30

Solution 31

Solution 32

Solution 33

Solution 34

Solution 35

Solution 36

Solution 37

Solution 38

Solution 39

Solution 40

Solution 41

Solution 42

Solution 43

Solution 44

Solution 45

Solution 46

Solution 47

Solution 48

Solution 49

Solution 50

Solution 51

Solution 52

Solution 53

Solution 54

Solution 55

Solution 56

Solution 57

Solution 58

Solution 59

Solution 60

Solution 61

Solution 62

Quadratic Equations Exercise Ex. 4.4

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Given equation is x² - 8x + 18 = 0

x² - 2 × x × 4 + + 4² - 4² + 18 = 0

(x - 4)² - 16 + 18 = 0

(x - 4)² = 16 - 18

(x - 4)² = -2

Taking square root on both the sides, we get

Therefore, real roots does not exist.

Solution 7

Solution 8

Solution 9

Solution 10

Quadratic Equations Exercise Ex. 4.5

Solution 1 (i)

Solution 1 (ii)

Solution 1(iii)

Solution 1 (iv)

Solution 1(v)

Solution 1(vi)

Solution 1 (vii)

x² + 2 × x × 5 + 5² = 10x - 6

x² + 10x + 25 = 10x - 6

x² + 31 = 0

Here, a = 1, b = 0 and c = 31

Therefore, the discriminant is

D = b² - 4ac

= 0 - 4 × 1 × 31

= -124

Solution 2 (i)

Solution 2 (ii)

Solution 2 (iii)

Solution 2 (iv)

Solution 2 (v)

Solution 2 (vi)

Solution 2 (vii)

Solution 2 (viii)

Solution 2 (ix)

Solution 2(x)

Solution 2(xi)

Solution 2(xii)

Solution 3(i)

Solution 3(ii)

Solution 3(iii)

Solution 3(iv)

Solution 3(v)

Quadratic Equations Exercise Ex. 4.6

Solution 1(i)

Solution 1(ii)

Solution 1(iii)

Solution 1(iv)

Solution 1(v)

Solution 1 (vi)

Given quadratic equation is

Here,

Therefore, we have

As D = 0, roots of the given equation are real and equal.

Solution 2(i)

Solution 2(ii)

Solution 2(iii)

Solution 2(iv)

Solution 2(v)

Solution 2(vi)

Solution 2(vii)

Solution 2(viii)

Solution 2(ix)

Solution 2(x)

Solution 2(xi)

Solution 2(xii)

Solution 2(xiii)

Solution 2(xiv)

Solution 2(xv)

Solution 2(xvi)

Solution 2(xvii)

Solution 2(xviii)

4x² - 2 (k + 1)x + (k + 1) = 0 Comparing with ax² + bx + c = 0, we get a = 4, b = -2(k + 1), c = k + 1 According to the question, roots are real and equal. Hence, b² - 4ac = 0

Solution 3(i)

Solution 3(ii)

Solution 3(iii)

Solution 3(iv)

Solution 3(v)

Solution 4(i)

Solution 4(ii)

Solution 4(iii)

Solution 4(iv)

x² + k(2x + k - 1) + 2 = 0 x² + 2kx + k(k - 1) + 2 = 0 Comparing with ax² + bx + c = 0, we get a = 1, b = 2k, c = k(k - 1) + 2 According to the question, roots are real and equal. Hence, b² - 4ac = 0

Solution 5(i)

Solution 5(ii)

Solution 5(iii)

Solution 5(iv)

Solution 5(v)

Solution 5(vi)

4x² + kx + 3 = 0 Comparing with ax² + bx + c = 0, we get a = 4, b = k, c = 3 According to the question, roots are real and equal. Hence, b² - 4ac = 0

Solution 6 (i)

Solution 6 (ii)

Solution 7

Solution 8

Solution 9(i)

Solution 9 (ii)

Given quadratic equation is x² + kx + 16 = 0

As it has equal roots, the discriminant will be 0.

Here, a = 1, b = k, c = 16

Therefore, D = k² - 4(1)(16) = 0

i.e. k² - 64 = 0

i.e. k = ± 8

When k = 8, the equation becomes x² + 8x + 16 = 0

or x² - 8x + 16 = 0

As D = 0, roots of the given equation are real and equal.

Solution 10

Solution 11

Solution 12

Solution 13

Solution 14

Solution 15(i)

Solution 15(ii)

Solution 15(iii)

Solution 15(iv)

Solution 16(i)

Solution 16(ii)

Solution 16(iii)

Solution 16(iv)

Solution 17

Solution 18

Solution 19

Solution 20

Solution 21

Solution 22

Solution 23

Solution 24

Solution 25

Quadratic Equations Exercise Ex. 4.7

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Solution 11

Solution 12

Solution 13

Solution 14

Solution 15

Solution 16

Solution 17

Solution 18

Solution 19

Solution 20

Solution 21

Solution 22

Solution 23

Solution 24

Let x be the natural number.

As per the question, we have

Therefore, x = 8 as x is a natural number.

Hence, the required natural number is 8.

Solution 25

Solution 26

Solution 27

Solution 28

Solution 29

Solution 30

Solution 31

Solution 32

Solution 33

Solution 34

Solution 35

Solution 36

Solution 37

Solution 38

Solution 39

Solution 40

Quadratic Equations Exercise Ex. 4.8

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Concept Insight: Use the relation s =d/t to crack this question and remember here distance is constant so speed and time will vary inversely.

Solution 11

Solution 12

Solution 13

Solution 14

Solution 15

Let the speed of a car be x km/hr. According to the question, time is hr. Distance = Speed × Time 2592 = x = 72 km/hr Hence, the time taken by a car to cover a distance of 2592 km is 36 hrs.

Solution 16

Let x km/hr be the speed of the stream.

Therefore, we have

Downstream speed = (9 + x) km/hr

Upstream speed = (9 - x) km/hr

Distance covered downstream = distance covered upstream

Total time taken = 3 hours 45 minutes = hours

Therefore, x = 3 as the speed can't be negative.

Hence, the speed of the motor boat is 3 km/hr.

Quadratic Equations Exercise Ex. 4.9

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Quadratic Equations Exercise Ex. 4.10

Solution 1

Solution 2

Solution 3

Solution 4

Quadratic Equations Exercise Ex. 4.11

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Quadratic Equations Exercise Ex. 4.12

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Let us assume that the larger pipe takes 'x' hours to fill the pool.

So, as per the question, the smaller pipe takes 'x + 10' hours to fill the same pool.

Solution 6

Let the tap with smaller diameter takes x hours to completely fill the tank.

So, the other tap takes (x - 2) hours to fill the tank completely.

Total time taken to fill the tank hours

As per the question, we have

When x = 5, then (x - 2) = 3

When which can't be possible as the time becomes negative.

Hence, the smaller diameter tap fills in 5 hours and the larger diameter tap fills in 3 hours.

Quadratic Equations Exercise Ex. 4.13

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Solution 11

Solution 12

Quadratic Equations Exercise 4.82

Solution 1

We know for the quadratic equation

ax² + bx + c = 0

condition for roots to be real and distinct is

D = b² - 4ac > 0 ..........(1)

for the given question

x²+ 4x + k = 0

a = 1, b = 4, c = k

from (1)

16 - 4k > 0

k < 4

So, the correct option is (a).

Quadratic Equations Exercise 4.83

Solution 2

For the equation x² - ax + 1 = 0 has two distinct roots, condition is

(-a)²- 4 (1) (1) > 0

a²- 4 > 0

a²> 4

|a| > 2

So, the correct option is (c).

Solution 3

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Solution 4

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Solution 5

For any quadratic equation

ax² + bx + c = 0

having two distinct roots, condition is

b² - 4ac > 0

For the equation ax² + 2x + a = 0 to have two distinct roots,

(2)² - 4 (a) (a) > 0

4 - 4a² > 0

4(1 - a²) > 0

1 - a² > 0 since 4 > 0

that is, a² - 1 < 0

Hence -1 < a < 1, only integral solution possible is a = 0

So, the correct option is (b).

Solution 6

For any quadratic equation

ax² + bx + c = 0

having real roots, condition is

b² - 4ac ≥ 0 .......(1)

According to question

x²+ kx + 64 = 0 have real root if

k²- 4 × 64 ≥ 0

k² ≥ 256

|k|≥ 16 ........(2)

Also, x² - 8x + k = 0 has real roots if

64 - 4k ≥ 0

k ≤ 16 .........(3)

from (2), (3) the only positive solution for k is

k = 16

So, the correct option is (d).

Solution 7

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Solution 8

It is given that 2 is a root of equation x² + bx + 12 = 0

Hence

(2)²+ b(2) + 12 = 0

4 + 2b + 12 = 0

2b + 16 = 0

b = -8 .........(1)

It is also given that x² + bx + q = 0 has equal root

so, b² - 4(q) = 0 ........(2)

from (1) & (2)

(-8)²- 4q =0

q = 16

So, the correct option is (c).

Solution 9

For any quadratic equation

ax² + bx + c = 0

Having equal roots, the condition is

b² - 4ac = 0

For the equation

(a² + b²) x² - 2 (ac + bd)x + c² + d²= 0

to have equal roots, we have

(-2(ac + bd))²- 4 (c²+ d²) (a²+ b²) = 0

4 (ac + bd)²- 4 (a²c²+ b²c² + d²a²+ b²d²) = 0

(a²c²+ b²d² + 2abcd) - (a²c²+ b²c² + a²d²+ b²d²) = 0

2abcd - b²c² - a²d² = 0

b²c² - a²d²- 2abcd = 0

(bc - ad)²= 0

bc = ad

So, the correct option is (b).

Solution 10

For any quadratic equation

ax²+ bx + c = 0

having equal roots, condition is

b² - 4ac = 0

According to question, quadratic equation is

(a² + b²)x² - 2b(a + c)x + b² + c²= 0

having equal roots, so

(2b(a + c))² - 4(a² + b²) (b² + c²) = 0

4b² (a + c)² - 4(a²b² + a²c²+ b⁴ + b²c²) = 0

b²(a² + c² + 2ac) - (a²b² + a²c²+ b²c² + b⁴) = 0

a²b² + b²c² + 2acb² - a²b² - a²c²- b²c² - b⁴ = 0

2acb² - a²c² - b⁴ = 0

a²c² + b⁴ - 2acb² = 0

(ac - b²)² = 0

ac = b²

So, the correct option is (b).

Solution 11

For any quadratic equation ax² + bx + c = 0 having no real roots, condition is

b² - 4ac < 0

For the equation, x² - bx + 1 = 0 having no real roots

b² - 4 < 0

b² < 4

-2 < b < 2

So, the correct option is (b).

Solution 12

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Solution 13

If p, q are the roots of equation x²- px + q = 0, then p and q satisfies the equation

Hence

(p)²- p(p) + q = 0

p²- p²+ q = 0

q = 0

and (q)²- p(q) + q = 0

q²- p(q) + q = 0

0 = 0

p can take any value

p = -2 and q = 0

So, the correct option is (c).

Solution 14

For the ax²+ bx + 1 = 0 having real roots condition is

b²- 4(a) (1) ≥ 0

b² ≥ 4a

For a = 1

b² ≥ 4

b ≥ 2

b can take value 2, 3, 4

Here, 3 possible solutions are possible .......(1)

For a = 2

b² ≥ 8

Here, b can take value 3, 4 ......(2)

Here, 2 solutions are possible

For a = 3

b²≥ 12

possible value of b is 4

Hence, only 1 possible solution ......(3)

For a = 4

b² ≥ 16

possible value of b is 4

Hence, only 1 possible solution .......(4)

from (1), (2), (3), (4)

Total possible solutions are 7

So, the correct option is (b).

Solution 15

Any quadratic equation having roots 0 or 1 are only possible quadratic equation because on squaring 0 or 1, it remains same.

Hence, 2 solutions are possible, one having roots 1 and 1, while the other having roots 0 and 1.

So, the correct option is (c).

Quadratic Equations Exercise 4.84

Solution 16

If any quadratic equation ax²+ bx + c has no real roots then b²- 4ac < 0 ......(1)

According to the question, the equation is

(a²+ b²) x²+ 2(ac + bd) x + c² + d²= 0

from (1)

4(ac + bd)²- 4(a² + b²) (c² + d²) < 0

a²c² + b²d² + 2abcd - (a²c² + a²d² + b²c² + b²d²) < 0

a²c² + b²d² + 2abcd - a²c² - a²d² - b²c² - b²d² < 0

2abcd - a²d² - b²c² < 0

-(ad - bc)²< 0

(ad - bc)²> 0

For this condition to be true ad ≠ bc

So, the correct option is (d).

Solution 17

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Solution 18

It is given that x = 1 is root of equation ax² + ax + 2 = 0

Hence, a(1)² + a(1) + 2 = 0

2a + 2 = 0

a = -1 ......(1)

It is given that x = 1 is also root of x² + x + b = 0

Hence, (1)²+ (1) + b = 0

b = -2 ......(2)

from (1) & (2)

ab = (-1) (-2)

ab = 2

So, the correct option is (b).

Solution 19

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Solution 20

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Solution 21

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Solution 22

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Solution 23

Given, 2 is a root of equation x²+ ax + 12 = 0

so (2)²+ a(2) + 12 = 0

4 + 2a + 12 = 0

a = -8 .....(1)

Given x²+ ax + q = 0 has equal roots so

a²- 4q = 0 ......(2)

from (1) & (2)

(-8)²- 4q = 0

4q = 64

q = 16

So, the correct option is (d).

Solution 24

$begin mathsize 12px style For space any space quadratic space equation space straight x squared space minus space left parenthesis straight k space plus space 6 right parenthesis straight x space plus space 2 left parenthesis 2 straight k space minus space 1 right parenthesis space equals space 0 open parentheses sum space of space roots close parentheses space equals space fraction numerator negative open curly brackets negative open parentheses straight k space plus space 6 close parentheses close curly brackets over denominator 1 end fraction space space space space space space space space space space space space space space space space space space space space space space space space space space space space space equals straight k space plus space 6 space space space space space space space......... open parentheses 1 close parentheses open parentheses product space of space roots close parentheses space equals space fraction numerator 2 open parentheses 2 straight k space minus space 1 close parentheses over denominator 1 end fraction space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space space equals space 2 open parentheses 2 straight k space minus space 1 close parentheses space space space space space space space space space space space space space space...... open parentheses 2 close parentheses Given space that space the space sum space of space roots space of space equation space equals space 1 half open parentheses product space of space roots close parentheses from space open parentheses 1 close parentheses space & space open parentheses 2 close parentheses straight k space plus space 6 space equals space 1 half open parentheses 2 open parentheses 2 straight k space minus space 1 close parentheses close parentheses straight k space plus space 6 space equals space 2 straight k space minus space 1 box enclose 7 space equals space straight k end enclose So comma space the space correct space option space is space left parenthesis straight b right parenthesis. end style$

Solution 25

If a and b are roots of the equation x²+ ax + b = 0

Then, sum of roots = -a

a + b = -a

2a + b = 0 .......(1)

product of roots = b

ab = b

ab - b = 0

b(a - 1) = 0 ........(2)

from (1) and (2)

-2a(a - 1) = 0...(From (1), we have b = -2a)

a(a - 1) = 0

a = 0 or a = 1

if a = 0 $rightwards double arrow$ b = 0

if a = 1 $rightwards double arrow$ b = -2

Now a and b can't be zero at same time, so correct solution is

a = 1 and b = -2

a + b = -1

So, the correct option is (d).

Solution 26

Given sum of roots is zero and one root is 2.

So the other root must be -2

so any quadratic equation having root 2 and -2 is

(x - 2) (x - (-2)) = 0

(x - 2) (x + 2) = 0

x²- 4 = 0

So, the correct option is (b).

Solution 27

$begin mathsize 12px style If space straight alpha comma space straight beta space are space roots space of space equation space ax squared space plus space bx space plus space straight c space equals space 0 Then comma space straight alpha space plus space straight beta space equals space fraction numerator negative straight b over denominator straight a end fraction space space space space space space space space space...... open parentheses 1 close parentheses and space αβ space equals space straight c over straight a space space space space space space...... open parentheses 2 close parentheses It space is space given space that space one space root space is space three space times space the space other space one Let space straight alpha space equals space 3 straight beta space space space space space space space space space....... open parentheses 3 close parentheses from space open parentheses 1 close parentheses space & space open parentheses 3 close parentheses 4 straight beta space equals space fraction numerator negative straight b over denominator straight a end fraction straight beta space equals space fraction numerator negative straight b over denominator 4 straight a end fraction space space space space space space space space space space space...... open parentheses 4 close parentheses from space open parentheses 2 close parentheses space & space open parentheses 3 close parentheses 3 straight beta squared space equals space straight c over straight a space space space space space space space space space.......... open parentheses 5 close parentheses from space open parentheses 4 close parentheses space & space open parentheses 5 close parentheses 3 open parentheses fraction numerator negative straight b over denominator 4 straight a end fraction close parentheses squared space equals space straight c over straight a fraction numerator 3 straight b squared over denominator 16 straight a squared end fraction equals straight c over straight a straight b squared over ac equals space 16 over 3 So comma space the space correct space option space is space left parenthesis straight c right parenthesis. end style$

Solution 28

$begin mathsize 12px style We space know space that comma space for space straight a space quadratic space equation space ax squared space plus space bx space plus space straight c space equals space 0 product space of space roots space equals space straight c over straight a space space space space space space space space space space space space space........ open parentheses 1 close parentheses According space to space the space question comma space equation space is space 2 straight x squared space plus space kx space plus space 4 space equals space 0 from space open parentheses 1 close parentheses comma product space of space roots space equals 4 over 2 αβ space equals space 2 space space space space space space space space space space....... open parentheses 2 close parentheses given space one space root space is space 2. space Hence space from space open parentheses 2 close parentheses space other space root space is space 1. So comma space the space correct space option space is space left parenthesis straight d right parenthesis. end style$

Solution 29

x²+ ax + 3 = 0

product of roots = 3

One root is 1. Hence other root is 3.

So, the correct option is (a).

Quadratic Equations Exercise 4.85

Solution 30

$begin mathsize 12px style Let space apostrophe straight a apostrophe space be space straight a space space root space of space given space equation. Then space according space to space the space question comma space other space root space is space 1 over straight a. 4 straight x squared space minus space 2 straight x space plus space open parentheses straight lambda space minus space 4 close parentheses space equals space 0 product space of space roots space equals space fraction numerator straight lambda space minus space 4 over denominator 4 end fraction straight a space cross times space 1 over straight a space equals space fraction numerator straight lambda space minus space 4 over denominator 4 end fraction 1 space equals fraction numerator space straight lambda space minus space 4 over denominator 4 end fraction straight lambda space minus space 4 space equals space 4 straight lambda space equals space 8 So comma space the space correct space option space is space left parenthesis straight a right parenthesis. end style$

Solution 31

$begin mathsize 12px style If space straight y space equals space 1 space is space straight a space root space of space equation space ay squared space plus space ay space plus space 3 space equals space 0 Then comma straight a open parentheses 1 close parentheses squared space plus space straight a open parentheses 1 close parentheses space plus space 3 space equals space 0 2 straight a space plus space 3 space equals space 0 straight a space equals space fraction numerator negative 3 over denominator 2 end fraction space space space space space space space space space space space space space........ open parentheses 1 close parentheses Also space straight y space equals space 1 space is space straight a space root space of space equation space straight y squared space plus space straight y space plus space straight b space equals space 0 Then comma open parentheses 1 close parentheses squared space plus space 1 space plus space straight b space equals space 0 box enclose straight b space equals space minus 2 end enclose space space space space space space space space space space space space space space space space...... open parentheses 2 close parentheses from space open parentheses 1 close parentheses space & space open parentheses 2 close parentheses ab space equals space open parentheses fraction numerator negative 3 over denominator 2 end fraction close parentheses open parentheses negative 2 close parentheses space space space space space space equals space 3 So comma space the space correct space option space is space left parenthesis straight a right parenthesis. end style$

Solution 32

Any quadratic equation, ax²+ bx + c = 0 has real and equal roots if b²- 4ac = 0

For the question, equation is 16x²+ 4kx + 9 = 0,

(4k)²- 4 × 16 × 9 = 0

16k²- 36 × 16 = 0

k² - 36 = 0

k²= 36

k = ± 6

So, the correct option is (c).

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Class 10 RD SHARMA Solutions Maths Chapter 4 - Quadratic Equations

Quadratic Equations Exercise Ex. 4.1

Solution 1 (i)

Solution 1 (ii)

Solution 1 (iii)

Solution 1 (iv)

Solution 1 (v)

Solution 1(vi)

Solution 1 (vii)

Solution 1 (viii)

Solution 1 (ix)

Solution 1 (x)

Solution 1 (xi)

Solution 1 (xii)

Solution 1 (xiii)

Solution 1 (xiv)

Solution 1 (xv)

Solution 2 (i)

Solution 2 (ii)

Solution 2 (iii)

Solution 2 (iv)

Solution 2 (v)

Solution 2 (vi)

Solution 2 (vii)

Solution 3 (i)

Solution 3 (ii)

Solution 3 (iii)

Solution 3 (iv)

Solution 4

Solution 5

Quadratic Equations Exercise Ex. 4.2

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Quadratic Equations Exercise Ex. 4.3

Solution 1

Solution 2

Solution 3

Solution 4

Solution 5

Solution 6

Solution 7

Solution 8

Solution 9

Solution 10

Solution 11

Solution 12

Solution 13

Solution 14

Solution 15

Solution 16

Solution 17

Solution 18

Solution 19

Solution 20

Solution 21

Solution 22

Solution 23

Solution 24

Solution 25

Solution 26

Solution 27

Solution 28

Solution 29

Solution 30

Solution 31

Solution 32

Solution 33

Solution 34

Solution 35

Solution 36

Solution 37

Solution 38

Solution 39

Solution 40

Solution 41