Question

name the properties which are not satisfying the set of rational numbers under multiplication​

Answer 1

If a/b and c/d are any two rational numbers, then

(a/b) + (c/d) is also a rational number

Example :

2/9 + 4/9 = 6/9 = 2/3 is a rational number

(ii) Commutative Property :

Addition of two rational numbers is commutative.

If a/b and c/d are any two rational numbers, then

(a/b) + (c/d) = (c/d) + (a/b)

Example :

2/9 + 4/9 = 6/9 = 2/3

4/9 + 2/9 = 6/9 = 2/3

So,

2/9 + 4/9 = 4/9 + 2/9

(iii) Associative Property :

Addition of rational numbers is associative.

If a/b, c/d and e/f are any three rational numbers, then

a/b + (c/d + e/f) = (a/b + c/d) + e/f

Example :

2/9 + (4/9 + 1/9) = 2/9 + 5/9 = 7/9

(2/9 + 4/9) + 1/9 = 6/9 + 1/9 = 7/9

So,

2/9 + (4/9 + 1/9) = (2/9 + 4/9) + 1/9

(iv) Additive Identity :

The sum of any rational number and zero is the rational number itself.

If a/b is any rational number, then

a/b + 0 = 0 + a/b = a/b

Zero is the additive identity for rational numbers.

Example :

2/7 + 0 = 0 + 2/7 = 2/7

(v) Additive Inverse :

(-a/b) is the negative or additive inverse of (a/b).

If a/b is a rational number,then there exists a rational number (-a/b) such that

a/b + (-a/b) = (-a/b) + a/b = 0

Example :

Additive inverse of 3/5 is (-3/5).

Additive inverse of (-3/5) is 3/5.

Additive inverse of 0 is 0 itself.

Subtraction

(i) Closure Property :

The difference between any two rational numbers is always a rational number.

Hence Q is closed under subtraction.

If a/b and c/d are any two rational numbers, then

(a/b) - (c/d) is also a rational number.

Example :

5/9 - 2/9 = 3/9 = 1/3 is a rational number.

(ii) Commutative Property :

Subtraction of two rational numbers is not commutative.

If a/b and c/d are any two rational numbers, then

(a/b) - (c/d) ≠ (c/d) - (a/b)

Example :

5/9 - 2/9 = 3/9 = 1/3

2/9 - 5/9 = -3/9 = -1/3

And,

5/9 - 2/9 ≠ 2/9 - 5/9

Therefore, Commutative property is not true for subtraction.

(iii) Associative Property :

Subtraction of rational numbers is not associative.

If a/b, c/d and e/f are any three rational numbers, then

a/b - (c/d - e/f) ≠ (a/b - c/d) - e/f

Example :

2/9 - (4/9 - 1/9) = 2/9 - 3/9 = -1/9

(2/9 - 4/9) - 1/9 = -2/9 - 1/9 = -3/9

And,

2/9 - (4/9 - 1/9) ≠ (2/9 - 4/9) - 1/9

Therefore, Associative property is not true for subtraction.

Multiplication

(i) Closure Property :

The product of two rational numbers is always a rational number. Hence Q is closed under multiplication.

If a/b and c/d are any two rational numbers, then

(a/b) x (c/d) = ac/bd is also a rational number.

Example :

5/9 x 2/9 = 10/81 is a rational number.

(ii) Commutative Property :

Multiplication of rational numbers is commutative.

If a/b and c/d are any two rational numbers, then

(a/b) x (c/d) = (c/d) x (a/b)

Example :

5/9 x 2/9 = 10/81

2/9 x 5/9 = 10/81

So,

5/9 x 2/9 = 2/9 x 5/9

Therefore, Commutative property is true for multiplication.

(iii) Associative Property :

Multiplication of rational numbers is associative.

If a/b, c/d and e/f are any three rational numbers, then

a/b x (c/d x e/f) = (a/b x c/d) x e/f

Example :

2/9 x (4/9 x 1/9) = 2/9 x 4/81 = 8/729

(2/9 x 4/9) x 1/9 = 8/81 x 1/9 = 8/729

So,

2/9 x (4/9 x 1/9) = (2/9 x 4/9) x 1/9

Therefore, Associative property is true for multiplication.

(iv) Multiplicative Identity :

The product of any rational number and 1 is the rational number itself. ‘One’ is the multiplicative identity for rational numbers.

If a/b is any rational number, then

a/b x 1 = 1 x a/b = a/b

Example :

5/7 x 1 = 1 x 5/7 = 5/7

(v) Multiplication by 0 :

Every rational number multiplied with 0 gives 0.

If a/b is any rational number, then

a/b x 0 = 0 x a/b = 0

Example :

5/7 x 0 = 0 x 5/7 = 0

(vi) Multiplicative Inverse or Reciprocal :

For every rational number a/b, b ≠ 0, there exists a rational number c/d such that a/b x c/d = 1.

Then,

c/d is the multiplicative inverse of a/b.

If b/a is a rational number, then

a/b is the multiplicative inverse or reciprocal of it.

Example :

The multiplicative inverse of 2/3 is 3/2.

The multiplicative inverse of 1/3 is 3.

The multiplicative inverse of 3 is 1/3.

The multiplicative inverse of 1 is 1.

The multiplicative inverse of 0 is undefined.

Division

(i) Closure Property :

The collection of non-zero rational numbers is closed under division.

If a/b and c/d are two rational numbers, such that c/d ≠ 0, then

a/b ÷ c/d is always a rational number.

Example :

2/3 ÷ 1/3 = 2/3 x 3/1 = 2 is a rational number.

(ii) Commutative Property :

Division of rational numbers is not commutative.

If a/b and c/d are two rational numbers, then

a/b ÷ c/d ≠ c/d ÷ a/b

Example :

2/3 ÷ 1/3 = 2/3 x 3/1 = 2

1/3 ÷ 2/3 = 1/3 x 3/2 = 1/2

And,

2/3 ÷ 1/3 ≠ 1/3 ÷ 2/3

Therefore, Commutative property is not true for division.

(iii) Associative Property :

Division of rational numbers is not associative.

If a/b, c/d and e/f are any three rational numbers, then

a/b ÷ (c/d ÷ e/f) ≠ (a/b ÷ c/d) ÷ e/f

Example :

2/9 ÷ (4/9 ÷ 1/9) = 2/9 ÷ 4 = 1/18

(2/9 ÷ 4/9) ÷ 1/9 = 1/2 - 1/9 = 7/18

And,

2/9 ÷ (4/9 ÷ 1/9) ≠ (2/9 ÷ 4/9) ÷ 1/9