Advertisements
Advertisements
Question
Verify commutativty of addition of rational numbers for each of the following pairs of rotional numbers:
Advertisements
Solution
\[\text{We have}\frac{2}{- 7} \text{and} \frac{12}{- 35} . \]
\[ \therefore \frac{- 2}{7} + \frac{- 12}{35} = \frac{- 2 \times 5}{7 \times 5} + \frac{- 12}{35} = \frac{- 10 - 12}{35} = \frac{- 22}{35}\]
\[\frac{12}{- 35} + \frac{2}{- 7} = \frac{- 12}{35} + \frac{- 2 \times 5}{7 \times 5} = \frac{- 12 - 10}{35} = \frac{- 22}{35}\]
\[ \therefore \frac{2}{- 7} + \frac{12}{- 35} = \frac{12}{- 35} + \frac{2}{- 7}\]
\[\text{Hence verified} . \]
APPEARS IN
RELATED QUESTIONS
Using appropriate properties find
`2/5 xx (-3/7) - 1/6 xx 3/2 + 1/14 xx 2/5`
Name the property under multiplication used in given:
`-19/29 xx 29/(-19) = 1`
Verify commutativty of addition of rational numbers for each of the following pairs of rotional numbers:
Find: `3/7 + ((-6)/11) + ((-8)/21) + (5/22)`.
Verify the commutative property for addition and multiplication for the rational numbers `(-10)/11` and `(-8)/33`
Give an example and verify the following statement.
Subtraction is not commutative for rational numbers
Subtraction of rational number is commutative.
Rational numbers can be added (or multiplied) in any order
`(-4)/5 xx (-6)/5 = (-6)/5 xx (-4)/5`
Verify the property x × y = y × x of rational numbers by using
`x = 7` and `y = 1/2`
Verify the property x × y = y × x of rational numbers by using
`x = 2/3` and `y = 9/4`
