Friday, 8 May 2015

NCERT Solutions Of Introduction To Trignometry Class 10






Class – X Mathematics



Chapter-08 Trigonometry

 (Exercise 8.1)


Questions

1. In D ABC, right angled at B, AB = 24 cm, BC = 7 cm. Determine:

(i) sin Acos A (ii) sinCcosC

2. In adjoining figure, find tan P - cot R :


3. If
3

sin ,

4
A = calculate cos A and tan A.

4. Given 15cot A = 8, find sin A and sec A.


5. Given
13

sec ,

12
q = calculate all other trigonometric ratios.

6. If ÐAnd ÐB are acute angles such that cos A = cos B, then show that ÐA = ÐB.


7. If
7

cot ,

8
q = evaluate:


(i)
( )( )

( )( )

1 sin 1 sin

1 cos 1 cos
q q

q q

+ -

+ -
(ii) cot2q

8. If 3cot A = 4, check whether



2

2 2

2

1 tan

cos sin

1 tan
A

A A

A

- = -

+
or not.
9. In D ABC right angles at B, if


1

tan ,

3
A = find value of:

(i) sin AcosC + cos AsinC (ii) cos AcosC -sin AsinC

10. In D PQR, right angled at Q, PR + QR = 25 cm and PQ = 5 cm. Determine the values of

sin P, cos P and tan P.


11. State whether the following are true or false. Justify your answer.
(i) The value of tan A is always less than 1.


(ii)
12

sec

5
A = for some value of angle A.

(iii) cos A is the abbreviation used for the cosecant of angle A.

(iv) cot A is the product of cot and A.


(v)
4

sin

3
q = for some angle q .










(Exercise 8.2)

Questions

1. Evaluate:
(i) sin 60 cos30 + sin 30 cos 60 (ii) 2 tan2 45 + cos2 30 - sin2 60



(iii)
cos 45
sec30 + cos ec30






(iv)



sin 30 tan 45 cos 60

sec30 cos60 cot 45
+ - ec



+ +


(v)
2 2 2

2 2

5cos 60 4sec 30 tan 45

sin 30 cos 30
+ -

+


2. Choose the correct option and justify:
(i) 2



2 tan 30
1+ tan 30






=

(A) sin 60 (B) cos 60 (C) tan 60 (D) sin 30



(ii)
2

2

1 tan 45

1 tan 45
-

+

=

(A) tan 90 (B) 1 (C) sin 45 (D) 0

(iii) sin 2A = 2sin A is true when A =

(A) 0 (B) 30 (C) 45 (D) 60


(iv) 2



2 tan 30
1- tan 30






=

(A) cos 60 (B) sin 60 (C) tan 60 (D) Non e of these

3. If tan ( A+ B) = 3 and ( ) 1



tan ; 0 90 ; ,

3
A- B = < A+ B £ A > B find A and B.



4. State whether the following are true or false. Justify your answer.
(i) sin ( A+ B) = sin A+ sin B


(ii) The value of sinq increases as q increases.

(iii) The value of cosq increases as q increases.

(iv) sinq = cosq for all values of q .


(v) cot A is not defined for A = 0 .







(Exercise 8.3)

Questions

1. Evaluate:

(i)
sin18

cos 72
°

°
(ii)
tan 26

cot 64
°

°
(iii) cos 48° -sin 42° (iv) cos ec31° -sec59°



2. Show that:
(i) tan 48° tan 23° tan 42° tan 67° =1


(ii) cos38°cos52°-sin 38°sin 52° = 0


3. If tan 2A = cot ( A-18°), where 2A is an acute angle, find the value of A.

4. If tan A = cot B, prove that A + B = 90 .


5. If sec 4A = cos ec ( A- 20°), where 4A is an acute angle, find the value of A.

6. If A, B and C are interior angles of a D ABC, then show that



B + C A

sin cos .

2 2
    =



 
7. Express sin 67° + cos75° in terms of trigonometric ratios of angles between 0° and 45 .












(Exercise 8.4)

Questions

1. Express the trigonometric ratios sin A, sec A and tan A in terms of cot A.


2. Write the other trigonometric ratios of A in terms of sec A.



3. Evaluate:

(i)
2 2

2 2

sin 63 sin 27

cos 17 cos 73
° + °

° + °
(ii) sin 25°cos65°+ cos 25°sin 65°



4. Choose the correct option. Justify your choice:
(i) 9sec2 A - 9 tan2 A =



(A) 1 (B) 9 (C) 8 (D) 0
(ii) (1+ tanq + secq )(1+ cotq - cos ecq ) =



(A) 0 (B) 1 (C) 2 (D) none of these
(iii) (sec A+ tan A)(1-sin A) =

(A) sec A (B) sin A (C) cos ecA (D) cos A



(iv)
2

2

1 tan

1 cot
A

A

+

+
=
(A) sec2 A (B) -1 (C) cot2 A (D) none of these



5. Prove the following identities, where the angles involved are acute angles for which the

expressions are defined:
(i) ( )2 1 cos



cos cot

1 cos
ec

q q q

q

- = -

+
(ii)
cos 1 sin

2sec

1 sin cos
A A

A

A A

+ + =

+
(iii)
tan cot

1 sec cos

1 cot 1 tan
ec

q q q q

q q

+ = +

- -
(iv)
1 sec sin2



sec 1 cos
A A

A A

+ =

-
(v)
cos sin 1

cos cot

cos sin 1
A A

ecA A

A A

- + = +

+ -
, using the identity cos ec2A =1+ cot2 A



(vi)
1 sin

sec tan

1 sin
A

A A

A

+ = +

-
(vii)
3

3

sin 2sin

tan

2cos cos
q q q

q q

- =

-
(viii) ( ) ( ) sin A+ cos ecA 2 + cos A+ sec A 2 = 7 + tan2 A + cot2 A


(ix) ( )( ) 1



cos sin sec cos

tan cot
ecA A A A

A A

- - =

+
(x)
2 2

2

2

1 tan 1 tan

tan

1 cot 1 cot
A A

A

A A

+   -    =   = +   -

NCERT Solutions Chapter 2 – Relations and Functions Class 11




Page 1 of 14











Exercise 2.1

Question 1:



If , find the values of x and y.



Answer

It is given that .

Since the ordered pairs are equal, the corresponding elements will also be equal.

Therefore, and .

x = 2 and y = 1





Question 2:



If the set A has 3 elements and the set B = {3, 4, 5}, then find the number of elements

in (A ~ B)?

Answer

It is given that set A has 3 elements and the elements of set B are 3, 4, and 5.

Number of elements in set B = 3



Number of elements in (A × B)

= (Number of elements in A) × (Number of elements in B)

= 3 × 3 = 9

Thus, the number of elements in (A × B) is 9.

Question 3:



If G = {7, 8} and H = {5, 4, 2}, find G ~ H and H ~ G.

Answer

G = {7, 8} and H = {5, 4, 2}

We know that the Cartesian product P ~ Q of two non-empty sets P and Q is defined as

P ~ Q = {(p, q): pP, q Q}

G × H = {(7, 5), (7, 4), (7, 2), (8, 5), (8, 4), (8, 2)}



H × G = {(5, 7), (5, 8), (4, 7), (4, 8), (2, 7), (2, 8)}

Question 4:



State whether each of the following statement are true or false. If the statement is false,

rewrite the given statement correctly.

Class XI Chapter 2 – Relations and Functions Maths

Page 2 of 14










(i) If P = {m, n} and Q = {n, m}, then P ~ Q = {(m, n), (n, m)}.

(ii) If A and B are non-empty sets, then A ~ B is a non-empty set of ordered pairs (x, y)

such that x A and y B.

(iii) If A = {1, 2}, B = {3, 4}, then A × (B Φ) = Φ.



Answer

(i) False

If P = {m, n} and Q = {n, m}, then

P ~ Q = {(m, m), (m, n), (n, m), (n, n)}



(ii) True

(iii) True

Question 5:



If A = {–, 1}, find A × A × A.

Answer

It is known that for any non-empty set A, A × A × A is defined as

A × A × A = {(a, b, c): a, b, c A}



It is given that A = {–, 1}

A × A × A = {(–, –, –), (–, –, 1), (–, 1, –), (–, 1, 1),



(1, –, –), (1, –, 1), (1, 1, –), (1, 1, 1)}

Question 6:



If A ~ B = {(a, x), (a, y), (b, x), (b, y)}. Find A and B.



Answer

It is given that A ~ B = {(a, x), (a, y), (b, x), (b, y)}



We know that the Cartesian product of two non-empty sets P and Q is defined as P ~ Q

= {(p, q): p P, q Q}

A is the set of all first elements and B is the set of all second elements.

Thus, A = {a, b} and B = {x, y}





Question 7:



Let A = {1, 2}, B = {1, 2, 3, 4}, C = {5, 6} and D = {5, 6, 7, 8}. Verify that

(i) A ~ (B C) = (A × B) (A × C)



(ii) A × C is a subset of B × D

Answer

(i) To verify: A × (B C) = (A × B) (A × C)

We have B C = {1, 2, 3, 4} {5, 6} = Φ

L.H.S. = A × (B C) = A × Φ = Φ



A × B = {(1, 1), (1, 2), (1, 3), (1, 4), (2, 1), (2, 2), (2, 3), (2, 4)}

A × C = {(1, 5), (1, 6), (2, 5), (2, 6)}

R.H.S. = (A × B) (A × C) = Φ

L.H.S. = R.H.S

Hence, A × (B C) = (A × B) (A × C)



(ii) To verify: A × C is a subset of B × D

A × C = {(1, 5), (1, 6), (2, 5), (2, 6)}

B × D = {(1, 5), (1, 6), (1, 7), (1, 8), (2, 5), (2, 6), (2, 7), (2, 8), (3, 5), (3, 6), (3, 7),

(3, 8), (4, 5), (4, 6), (4, 7), (4, 8)}

We can observe that all the elements of set A × C are the elements of set B × D.

Therefore, A × C is a subset of B × D.

Class XI Chapter 2 –Relations and Functions Maths

Page 3 of 14









Question 8:



Let A = {1, 2} and B = {3, 4}. Write A ~ B. How many subsets will A ~ B have? List

them.

Answer

A = {1, 2} and B = {3, 4}

A × B = {(1, 3), (1, 4), (2, 3), (2, 4)}

n(A ~ B) = 4

We know that if C is a set with n(C) = m, then n[P(C)] = 2m.

Therefore, the set A ~ B has 24 = 16 subsets. These are



Φ, {(1, 3)}, {(1, 4)}, {(2, 3)}, {(2, 4)}, {(1, 3), (1, 4)}, {(1, 3), (2, 3)},

{(1, 3), (2, 4)}, {(1, 4), (2, 3)}, {(1, 4), (2, 4)}, {(2, 3), (2, 4)},

{(1, 3), (1, 4), (2, 3)}, {(1, 3), (1, 4), (2, 4)}, {(1, 3), (2, 3), (2, 4)},

{(1, 4), (2, 3), (2, 4)}, {(1, 3), (1, 4), (2, 3), (2, 4)}

Question 9:



Let A and B be two sets such that n(A) = 3 and n (B) = 2. If (x, 1), (y, 2), (z, 1) are in A

~ B, find A and B, where x, y and z are distinct elements.



Answer

It is given that n(A) = 3 and n(B) = 2; and (x, 1), (y, 2), (z, 1) are in A ~ B.



We know that A = Set of first elements of the ordered pair elements of A ~ B

B = Set of second elements of the ordered pair elements of A ~ B.

x, y, and z are the elements of A; and 1 and 2 are the elements of B.

Since n(A) = 3 and n(B) = 2, it is clear that A = {x, y, z} and B = {1, 2}.





Question 10:



The Cartesian product A ~ A has 9 elements among which are found (–, 0) and (0, 1).

Find the set A and the remaining elements of A × A.

Answer

We know that if n(A) = p and n(B) = q, then n(A ~ B) = pq.

n(A ~ A) = n(A) ~ n(A)

It is given that n(A ~ A) = 9

n(A) ~ n(A) = 9

n(A) = 3



The ordered pairs (–, 0) and (0, 1) are two of the nine elements of A × A.

We know that A × A = {(a, a): a A}. Therefore, –, 0, and 1 are elements of A.

Since n(A) = 3, it is clear that A = {–, 0, 1}.



The remaining elements of set A × A are (–, –), (–, 1), (0, –), (0, 0),

(1, –), (1, 0), and (1, 1)

Class XI Chapter 2 –Relations and Functions Maths

Page 4 of 14









Exercise 2.2

Question 1:



Let A = {1, 2, 3, … , 14}. Define a relation R from A to A by R = {(x, y): 3x y = 0,

where x, y A}. Write down its domain, codomain and range.



Answer

The relation R from A to A is given as

R = {(x, y): 3x y = 0, where x, y A}

i.e., R = {(x, y): 3x = y, where x, y A}

R = {(1, 3), (2, 6), (3, 9), (4, 12)}



The domain of R is the set of all first elements of the ordered pairs in the relation.

Domain of R = {1, 2, 3, 4}



The whole set A is the codomainof the relation R.

Codomain of R = A = {1, 2, 3, …, 14}



The range of R is the set of all second elements of the ordered pairs in the relation.

Range of R = {3, 6, 9, 12}





Question 2:



Define a relation R on the set N of natural numbers by R = {(x, y): y = x + 5, x is a

natural number less than 4; x, y N}. Depict this relationship using roster form. Write



down the domain and the range.

Answer

R = {(x, y): y = x + 5, x is a natural number less than 4, x, y N}



The natural numbers less than 4 are 1, 2, and 3.

R = {(1, 6), (2, 7), (3, 8)}



The domain of R is the set of all first elements of the ordered pairs in the relation.

Domain of R = {1, 2, 3}



The range of R is the set of all second elements of the ordered pairs in the relation.

Range of R = {6, 7, 8}





Question 3:



A = {1, 2, 3, 5} and B = {4, 6, 9}. Define a relation R from A to B by R = {(x, y): the

difference between x and y is odd; x A, y B}. Write R in roster form.



Answer

A = {1, 2, 3, 5} and B = {4, 6, 9}

R = {(x, y): the difference between x and y is odd; x A, y B}

R = {(1, 4), (1, 6), (2, 9), (3, 4), (3, 6), (5, 4), (5, 6)}





Question 4:



The given figure shows a relationship between the sets P and Q. write this relation

(i) in set-builder form (ii) in roster form.

What is its domain and range?

Class XI Chapter 2 –Relations and Functions Maths

Page 5 of 14










Answer

According to the given figure, P = {5, 6, 7}, Q = {3, 4, 5}

(i) R = {(x, y): y = x –2; x P} or R = {(x, y): y = x –2 for x = 5, 6, 7}



(ii) R = {(5, 3), (6, 4), (7, 5)}

Domain of R = {5, 6, 7}

Range of R = {3, 4, 5}

Question 5:



Let A = {1, 2, 3, 4, 6}. Let R be the relation on A defined by

{(a, b): a, b A, b is exactly divisible by a}.



(i) Write R in roster form

(ii) Find the domain of R

(iii) Find the range of R.

Answer

A = {1, 2, 3, 4, 6}, R = {(a, b): a, b A, b is exactly divisible by a}



(i) R = {(1, 1), (1, 2), (1, 3), (1, 4), (1, 6), (2, 2), (2, 4), (2, 6), (3, 3), (3, 6), (4, 4),

(6, 6)}

(ii) Domain of R = {1, 2, 3, 4, 6}

(iii) Range of R = {1, 2, 3, 4, 6}

Question 6:



Determine the domain and range of the relation R defined by R = {(x, x + 5): x {0, 1,



2, 3, 4, 5}}.

Answer

R = {(x, x + 5): x {0, 1, 2, 3, 4, 5}}

R = {(0, 5), (1, 6), (2, 7), (3, 8), (4, 9), (5, 10)}

Domain of R = {0, 1, 2, 3, 4, 5}



Range of R = {5, 6, 7, 8, 9, 10}

Question 7:



Write the relation R = {(x, x3): x is a prime number less than 10} in roster form.



Answer

R = {(x, x3): x is a prime number less than 10}



The prime numbers less than 10 are 2, 3, 5, and 7.

R = {(2, 8), (3, 27), (5, 125), (7, 343)}





Question 8:



Let A = {x, y, z} and B = {1, 2}. Find the number of relations from A to B.



Answer

It is given that A = {x, y, z} and B = {1, 2}.

A × B = {(x, 1), (x, 2), (y, 1), (y, 2), (z, 1), (z, 2)}

Since n(A ~ B) = 6, the number of subsets of A ~ B is 26.



Class XI Chapter 2 –Relations and Functions Maths

Page 6 of 14










Therefore, the number of relations from A to B is 26.





Question 9:



Let R be the relation on Z defined by R = {(a, b): a, b Z, a b is an integer}. Find the



domain and range of R.

Answer

R = {(a, b): a, b Z, a b is an integer}



It is known that the difference between any two integers is always an integer.

Domain of R = Z

Range of R = Z



Class XI Chapter 2 –Relations and Functions Maths

Page 7 of 14









Exercise 2.3

Question 1:



Which of the following relations are functions? Give reasons. If it is a function, determine

its domain and range.

(i) {(2, 1), (5, 1), (8, 1), (11, 1), (14, 1), (17, 1)}

(ii) {(2, 1), (4, 2), (6, 3), (8, 4), (10, 5), (12, 6), (14, 7)}

(iii) {(1, 3), (1, 5), (2, 5)}

Answer

(i) {(2, 1), (5, 1), (8, 1), (11, 1), (14, 1), (17, 1)}

Since 2, 5, 8, 11, 14, and 17 are the elements of the domain of the given relation having

their unique images, this relation is a function.

Here, domain = {2, 5, 8, 11, 14, 17} and range = {1}

(ii) {(2, 1), (4, 2), (6, 3), (8, 4), (10, 5), (12, 6), (14, 7)}

Since 2, 4, 6, 8, 10, 12, and 14 are the elements of the domain of the given relation

having their unique images, this relation is a function.

Here, domain = {2, 4, 6, 8, 10, 12, 14} and range = {1, 2, 3, 4, 5, 6, 7}

(iii) {(1, 3), (1, 5), (2, 5)}

Since the same first element i.e., 1 corresponds to two different images i.e., 3 and 5,

this relation is not a function.

Question 2:



Find the domain and range of the following real function:

(i) f(x) = –x| (ii)



Answer

(i) f(x) = –x|, x R

We know that |x| =

Since f(x) is defined for x R, the domain of f is R.

It can be observed that the range of f(x) = –x| is all real numbers except positive real



numbers.

The range of f is (–, 0].



(ii)

Since is defined for all real numbers that are greater than or equal to – and less

than or equal to 3, the domain of f(x) is {x : – ≤x ≤3} or [–, 3].

For any value of x such that – ≤x ≤3, the value of f(x) will lie between 0 and 3.

The range of f(x) is {x: 0 ≤x ≤3} or [0, 3].





Question 3:



A function f is defined by f(x) = 2x –5. Write down the values of

(i) f(0), (ii) f(7), (iii) f(–)



Class XI Chapter 2 –Relations and Functions Maths

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Answer

The given function is f(x) = 2x –5.



Therefore,

(i) f(0) = 2 ~ 0 –5 = 0 –5 = –

(ii) f(7) = 2 ~ 7 –5 = 14 –5 = 9

(iii) f(–) = 2 × (–) –5 = –6 –5 = –1





Question 4:



The function ‘t’ which maps temperature in degree Celsius into temperature in degree



Fahrenheit is defined by .

Find (i) t (0) (ii) t (28) (iii) t (–0) (iv) The value of C, when t(C) = 212



Answer

The given function is .

Therefore,

(i)

(ii)

(iii)

(iv) It is given that t(C) = 212

Thus, the value of t, when t(C) = 212, is 100.





Question 5:



Find the range of each of the following functions.

(i) f(x) = 2 –3x, x R, x > 0.

(ii) f(x) = x2 + 2, x, is a real number.

(iii) f(x) = x, x is a real number



Answer

(i) f(x) = 2 –3x, x R, x > 0



Class XI Chapter 2 –Relations and Functions Maths

Page 9 of 14










The values of f(x) for various values of real numbers x > 0 can be written in the tabular



form as

x 0.01 0.1 0.9 1 2 2.5 4 5 …

f(x) 1.97 1.7 –.7 – – –.5 –0 –3 …

Thus, it can be clearly observed that the range of f is the set of all real numbers less



than 2.

i.e., range of f = (–, 2)




Alter:


Let x > 0

3x > 0

2 –x < 2

f(x) < 2

Range of f = (–, 2)

(ii) f(x) = x2 + 2, x, is a real number

The values of f(x) for various values of real numbers x can be written in the tabular form



as

x 0 }0.3 }0.8 }1 }2 }3 …

f(x) 2 2.09 2.64 3 6 11 …..

Thus, it can be clearly observed that the range of f is the set of all real numbers greater



than 2.

i.e., range of f = [2, )




Alter:


Let x be any real number.



Accordingly,

x2 ≥0

x2 + 2 ≥0 + 2

x2 + 2 ≥2

f(x) ≥2

Range of f = [2, )

(iii) f(x) = x, x is a real number

It is clear that the range of f is the set of all real numbers.

Range of f = R




Text solution


Class XI Chapter 2 –Relations and Functions Maths

Page 10 of 14









Question 1:



The relation f is defined by

The relation g is defined by

Show that f is a function and g is not a function.



Answer

The relation f is defined as



It is observed that for

0 ≤x < 3, f(x) = x2

3 < x ≤10, f(x) = 3x

Also, at x = 3, f(x) = 32 = 9 or f(x) = 3 ~ 3 = 9

i.e., at x = 3, f(x) = 9

Therefore, for 0 ≤x ≤10, the images of f(x) are unique.



Thus, the given relation is a function.

The relation g is defined as

It can be observed that for x = 2, g(x) = 22 = 4 and g(x) = 3 ~ 2 = 6

Hence, element 2 of the domain of the relation g corresponds to two different images



i.e., 4 and 6. Hence, this relation is not a function.

Question 2:



If f(x) = x2, find .



Answer

Question 3:



Find the domain of the function

Answer

The given function is .

Class XI Chapter 2 –Relations and Functions Maths

Page 11 of 14










It can be seen that function f is defined for all real numbers except at x = 6 and x = 2.

Hence, the domain of f is R –{2, 6}.





Question 4:



Find the domain and the range of the real function f defined by .



Answer

The given real function is .

It can be seen that is defined for (x –1) ≥0.

i.e., is defined for x ≥1.

Therefore, the domain of f is the set of all real numbers greater than or equal to 1 i.e.,

the domain of f = [1, ).

As x ≥1 (x –1) ≥0

Therefore, the range of f is the set of all real numbers greater than or equal to 0 i.e., the

range of f = [0, ).





Question 5:



Find the domain and the range of the real function f defined by f (x) = |x –1|.



Answer

The given real function is f (x) = |x –1|.

It is clear that |x –1| is defined for all real numbers.

Domain of f = R

Also, for x R, |x –1| assumes all real numbers.

Hence, the range of f is the set of all non-negative real numbers.





Question 6:



Let be a function from R into R. Determine the range of f.



Answer

The range of f is the set of all second elements. It can be observed that all these



elements are greater than or equal to 0 but less than 1.

[Denominator is greater numerator]

Thus, range of f = [0, 1)





Question 7:



Class XI Chapter 2 –Relations and Functions Maths

Page 12 of 14










Let f, g: R R be defined, respectively by f(x) = x + 1, g(x) = 2x –3. Find f + g, f g



and .

Answer

f, g: R R is defined as f(x) = x + 1, g(x) = 2x –3

(f + g) (x) = f(x) + g(x) = (x + 1) + (2x –3) = 3x –2

(f + g) (x) = 3x –2

(f –g) (x) = f(x) –g(x) = (x + 1) –(2x –3) = x + 1 –2x + 3 = –x + 4

(f –g) (x) = –x + 4





Question 8:



Let f = {(1, 1), (2, 3), (0, –), (–, –)} be a function from Z to Z defined by f(x) = ax

+ b, for some integers a, b. Determine a, b.



Answer

f = {(1, 1), (2, 3), (0, –), (–, –)}

f(x) = ax + b

(1, 1) f

f(1) = 1

a ~ 1 + b = 1

a + b = 1

(0, –) f

f(0) = –

a ~ 0 + b = –

b = –

On substituting b = – in a + b = 1, we obtain a + (–) = 1 a = 1 + 1 = 2.

Thus, the respective values of a and b are 2 and –.





Question 9:



Let R be a relation from N to N defined by R = {(a, b): a, b N and a = b2}. Are the



following true?

(i) (a, a) R, for all a N (ii) (a, b) R, implies (b, a) R

(iii) (a, b) R, (b, c) R implies (a, c) R.



Justify your answer in each case.

Answer

R = {(a, b): a, b N and a = b2}

(i) It can be seen that 2 N;however, 2 ≠ 22 = 4.

Therefore, the statement “(a, a) R, for all a N” is not true.

(ii) It can be seen that (9, 3) N because 9, 3 N and 9 = 32.

Now, 3 ≠ 92 = 81; therefore, (3, 9) N



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Therefore, the statement “(a, b) R, implies (b, a) R” is not true.

(iii) It can be seen that (9, 3) R, (16, 4) R because 9, 3, 16, 4 N and 9 = 32 and 16

= 42.

Now, 9 ≠ 42 = 16; therefore, (9, 4) N

Therefore, the statement “(a, b) R, (b, c) R implies (a, c) R” is not true.





Question 10:



Let A = {1, 2, 3, 4}, B = {1, 5, 9, 11, 15, 16} and f = {(1, 5), (2, 9), (3, 1), (4, 5), (2,



11)}. Are the following true?

(i) f is a relation from A to B (ii) f is a function from A to B.



Justify your answer in each case.

Answer

A = {1, 2, 3, 4} and B = {1, 5, 9, 11, 15, 16}

A × B = {(1, 1), (1, 5), (1, 9), (1, 11), (1, 15), (1, 16), (2, 1), (2, 5), (2, 9), (2, 11),



(2, 15), (2, 16), (3, 1), (3, 5), (3, 9), (3, 11), (3, 15), (3, 16), (4, 1), (4, 5), (4, 9), (4,

11), (4, 15), (4, 16)}

It is given that f = {(1, 5), (2, 9), (3, 1), (4, 5), (2, 11)}



(i) A relation from a non-empty set A to a non-empty set B is a subset of the Cartesian

product A ~ B.

It is observed that f is a subset of A ~ B.

Thus, f is a relation from A to B.



(ii) Since the same first element i.e., 2 corresponds to two different images i.e., 9 and

11, relation f is not a function.





Question 11:



Let f be the subset of Z ~ Z defined by f = {(ab, a + b): a, b Z}. Is f a function from Z

to Z: justify your answer.



Answer

The relation f is defined as f = {(ab, a + b): a, b Z}

We know that a relation f from a set A to a set B is said to be a function if every element



of set A has unique images in set B.

Since 2, 6, –, – Z, (2 ~ 6, 2 + 6), (– × –, – + (–)) f

i.e., (12, 8), (12, –) f



It can be seen that the same first element i.e., 12 corresponds to two different images

i.e., 8 and –. Thus, relation f is not a function.





Question 12:



Let A = {9, 10, 11, 12, 13} and let f: A N be defined by f(n) = the highest prime

factor of n. Find the range of f.



Answer

A = {9, 10, 11, 12, 13}

f: A N is defined as

f(n) = The highest prime factor of n



Prime factor of 9 = 3

Prime factors of 10 = 2, 5

Prime factor of 11 = 11

Prime factors of 12 = 2, 3

Prime factor of 13 = 13

f(9) = The highest prime factor of 9 = 3



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f(10) = The highest prime factor of 10 = 5

f(11) = The highest prime factor of 11 = 11

f(12) = The highest prime factor of 12 = 3

f(13) = The highest prime factor of 13 = 13

The range of f is the set of all f(n), where n A.

Range of f = {3, 5, 11, 13}