626 Appendix B • Sets and Functions
We define algebraic operations on this set :F(S, JR). In particular, we define(a) Addition: Vf,g E :F(S, JR), we define the function f + g by
specifying that Vx E S ,(f + g)(x) = j(x) + g(x).
"-.,---" "-,-"'
in :F(S, JR) in JR(b) Multiplication by "scalars" r E JR: VJ E :F(S, JR), and
Vr E JR, we define the function r f by specifying that Vx E S,(rf)(x) = r · f(x).
._.,......, "-.,---"
in :F(S, JR) in JR(c) Multiplication: Vf,g E :F(S, JR), we define the function Jg
by specifying that Vx E S ,(fg)(x) = f(x) · g(x).
._.,......, ~
in :F(S, JR) in JR(d) Division: Vf,g E :F(S, JR), we define the function !_ by
g
specifying that Vx E S ,(~) (x )
'-v-'
in :F(S, JR)= (f(x))
g(x)
'--,.--"
in JRNotice that f jg is not necessarily in :F(S, JR), since we do not
know if the denominator is ever 0 without knowing the specific
function g(x). The domain off /g may be different from S.
(e) Absolute value: VJ E :F(S, JR), we define the function lfl
by specifying that Vx E S,lfl (x) = lf(x)I.
._.,......, '-v-'
in :F(S, JR) in JR(f) Maximum: VJ, g E :F(S, JR), we define the function max{!, g}
by specifying that Vx E S ,max{f, g}(x ) = max{f(x),g(x)}.
'--,,.--'
in :F(S,JR) in JR