Let f: R-{n}->R be a function defined by...

Let `f: R-{n}->R` be a function defined by `f(x)=(x-m)/(x-n)` such that `m!=n` 1) f is one one into function2) f is one one onto function3) f is many one into funciton4) f is many one onto funcionn then

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Let f: R-{n}->R be a function defined by f(x)=(x-m)/(x-n) such that m!=n 1) f is one one into function2) f is one one onto function3) f is many one into funciton4) f is many one onto function then

Let f: R-{n}->R be a function defined by f(x)=(x-m)/(x-n) , where m!=n . Then, f is one-one onto (b) f is one-one into (c) f is many one onto (d) f is many one into

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Let f : R->R be a function defined by f() =(x^2-3x+4)/(x^2+3x+4)then f is (1) one-one but not onto (2) onto but not one -one (3) onto as well as one- one (4) neither onto nor one- one

Show that the function f: R rarr R defined by f(x) = (3x-1)/2, x in R is one-one and onto function.

Let `f: R-{n}->R` be a function defined by `f(x)=(x-m)/(x-n)` such that `m!=n` 1) f is one one into function2) f is one one onto function3) f is many one into funciton4) f is many one onto funcionn then

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