Differentiable in a Cloed/Half Closed Interval OF is differentiable on an interval of the form [a,b],[a,+),(-0,b],la,b)of (a,b]if it is differentiable all points inside the interval and the appropriate one-sided derivative exists at each included endpoint
Differentiable in a Cloed/Half Closed Interval ⚫F is differentiable on an interval of the form [a,b], [a,+∞),(-∞,b],[a,b) of (a,b] if it is differentiable all points inside the interval and the appropriate one-sided derivative exists at each included endpoint
Other Notations f)-么[rlf=o[un Fory=f(x),f(x)=y(x),f(x)= dy dx Derivative at point xo, x)4Vw·x)=pUe ()-y(x).)=
Other Notations ⚫ ⚫ For y = f (x), ⚫ Derivative at point x0 , '( ) [ ( )], '( ) [ ( )], x d f x f x f x D f x dx = = '( ) '( ), '( ) dy f x y x f x dx = = 0 0 0 0 0 0 0 0 '( ) [ ( )] , '( ) [ ( )] '( ) '( ), '( ) x x x x x x x d f x f x f x D f x dx dy f x y x f x dx = = = = = = =
Derivative of a Constant f(x)=const.=>f(x)=0 ●Theorem The derivative of a constant function is 0; that is,if c is any real number,then 0
Derivative of a Constant ⚫ f (x) = const. ═> f’(x) = 0 ⚫ Theorem The derivative of a constant function is 0; that is, if c is any real number, then [ ] 0 d c dx =
Derivatives of Integer Powers of x Theorem (The Power Rule) If n is any integer,then 层Tm
Derivatives of Integer Powers of x ⚫ Theorem (The Power Rule) If n is any integer, then 1 [ ] d n n x nx dx − =
Derivative of a Constant Times a Function Theorem (Constant Multiple Rule) If fis differentiable at x and c is any real number,then cfis also differentiable at x and fw=c安e
Derivative of a Constant Times a Function ⚫ Theorem (Constant Multiple Rule) If f is differentiable at x and c is any real number, then cf is also differentiable at x and [ ( )] [ ( )] d d cf x c f x dx dx =