Find the image set of the domain of each of the following functions :
`g:RR to RR` defined by, `g(x) = x^2+2,` for all `x in RR,` where `RR` is the set of real numbers.

Find the image set of the domain of each of the following functions : f:RRto RR defined by, f(x) = tan x for all x inRR

Find the image set of the domain of each of the following functions : g:RR to RR given by g(x) = x^2 +3" for all "x in RR

Find the image set of the domain of each of the following functions : h:RR^+ to RR defined by h(x) = log_ex, " for all " x in RR^+ where RR^+ is the set of positive real numbers.

Find the image set of the domain of each of the following functions : f:RR toRR " given by", f(x)= sinx, "for all "x in RR,

Find the image set of the domain of each of the following functions : f:RR to RR defined by, f(x) = cosecx for all x in RR (pi ne n pi , n in ZZ)

Find the image set of the domain of each of the following functions : f:RR to RR by f(x) = cos x for all x in RR

f: RR to RR given by, f (x) =x^(2) +5, for all x in RR : then the image set is [RR is a set of real number]-

Show that , the function f: RR rarr RR defined by f(x) =x^(3)+x is bijective, here RR is the set of real numbers.

Discuss the bijectivity of the following mapping : f: RR rarr RR defined by f (x) = ax^(3) +b,x in RR and a ne 0' RR being the set of real numbers

Prove that the function f: RR rarr RR defined by, f(x)=sin x , for all x in RR is neither one -one nor onto.