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Prove that the function f : RrarrR where...

Prove that the function f : `RrarrR` where R is the set of all real numbers, defined as f (x) = `3x + 4 ` is one-one and onto . Also find the inverse function of f.

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Let `x_(1), x_(2) in` and f `(x_(1)) = f (x_(2))`
`rArr 3x_(1) + 4 = 3x_(2) +4`
`rArr 3x_(1) = 3x_(2)`
`rArr x_(1) = x_(2)`
`:.` f is one-one.
Again , let f (x) = y when y `in` R (co-domain)
`rArr 3x + 4 = y`
`rArr 3x = y-4`
`rArrx= (y-4)/(3) in` (domain)`AAy in R`
Therefore f is onto.
`because` f is one-one onto. Hence Proved.
`:.` Inverse of exists
`:. f^(-1) : R rarr R` is defined as
`f^(-1)(y) = (y-4)/(3)` Ans.
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NAGEEN PRAKASHAN-RELATIONS AND FUNCTIONS -Miscellaneous Exercise
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  2. Let f: R ->Rbe defined as f(x) = 10 x + 7. Find the function g: R ->R...

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  3. Let f: W ->Wbe defined as f(n) = n - 1, if is odd and f(n) = n + 1, i...

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  4. If f: R ->Ris defined by f(x) = x^2- 3x + 2, find f(f(x)).

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  5. Show that the function f: R rarr { x in R: -1 lt x lt 1 } defined by ...

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  6. Show that the function f: R->Rgiven by f(x)=x^3is injective.

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  14. Given a non -empty set X, let *:" "P(X)" "xx" "P(X) ->P(X) be defined ...

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  15. Define a binary operation * on the set A={0,1,2,3,4,5} as a*b=a+b (mod...

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