Difference between revisions of "Calculus:Derivative of Polynomial Functions"

Derivative of Polynomial Functions

=Newton Derivative of Polynomial Functions=

1. The sum rule ${\displaystyle (f+g)'=f'+g'}$
2. The Difference Rule ${\displaystyle (f-g)'=f'-g'}$
3. The Product Rule ${\displaystyle (f*g)'=f*g'+g*f'}$
4. The Quotient Rule ${\displaystyle ({f \over g})'={(gf'-fg') \over g^{2}}}$

=Leibniz Derivative of Polynomial Functions=

1. The sum rule ${\displaystyle {d(f+g) \over dx}={df \over dx}+{dg \over dx}}$
2. The Difference Rule ${\displaystyle {d(f-g) \over dx}={df \over dx}-{dg \over dx}}$
3. The Product Rule ${\displaystyle {d(fg) \over dx}'=f{dg \over dx}+g{df \over dx}}$
4. The Quotient Rule ${\displaystyle {d({f \over g}) \over dx}={g{df \over dx}-f{dg \over dx} \over g^{2}}}$

Examples

Example 1

Ex1:${\displaystyle f'(x^{4}+2x^{2}+4x+2)}$

${\displaystyle (f+g)'=f'+g'}$

Using the sum rule we can divided in to different part ${\displaystyle f'(x^{4}+2x^{2}+4x+2)=(x^{4})+2(x^{2})+4(x)+(2)}$

so we will started to work on different part by using power rule.

${\displaystyle f'(x)=(x^{4})+2(x^{2})+4(x)+(2)}$

${\displaystyle (4x^{3})+2(2x)+4}$

${\displaystyle 4x^{3}+4x+4}$

Example 2

Ex2:${\displaystyle f'(x)=x^{4}*x^{3}}$

The Product Rule ${\displaystyle (f*g)'=f*g'+g*f'}$

Using the Product Rule we can divided in to different part ${\displaystyle f'(x^{4}*x^{3})=x^{4}*(x^{3})'+(x^{4})'*x^{3})}$

${\displaystyle x^{4}*3x^{2}+4x^{3}*x^{3}}$

${\displaystyle 3x^{6}+4x^{6}}$

${\displaystyle 3x^{6}+4x^{6}}$

${\displaystyle 7x^{6}}$

Example 3

Ex3:${\displaystyle f'(x)={{4x^{4}-x^{2}+10x} \over {4x^{5}-x^{3}+5x}}}$

The Quotient Rule ${\displaystyle ({f \over g})'={(gf'-fg') \over g^{2}}}$

${\displaystyle f'(x)={{(4x^{5}-x^{3}+5x)}{(4x^{4}-x^{2}+10x)'}-(4x^{4}-x^{2}+10x){(4x^{5}-x^{3}+5x)'} \over {(4x^{5}-x^{3}+5x)}^{2}}}$

${\displaystyle f'(x)={{(4x^{5}-x^{3}+5x)}{(4x^{4}-x^{2}+10x)'}-(4x^{4}-x^{2}+10x){(4x^{5}-x^{3}+5x)'} \over {(16x^{8}-8x^{6}+80x^{5}+x^{4}-20x^{3}+100x^{2})}}}$

${\displaystyle f'(x)={{(4x^{5}-x^{3}+5x)}{(16x^{3}-2x+10)}-(4x^{4}-x^{2}+10x){(4x^{5}-x^{3}+5x)'} \over {(16x^{8}-8x^{6}+80x^{5}+x^{4}-20x^{3}+100x^{2})}}}$

${\displaystyle f'(x)={{(4x^{5}-x^{3}+5x)}{(16x^{3}-2x+10)}-(4x^{4}-x^{2}+10x){(20x^{4}-3x^{2}+5)} \over {(16x^{8}-8x^{6}+80x^{5}+x^{4}-20x^{3}+100x^{2})}}}$

${\displaystyle f'(x)={{(4x^{5}-x^{3}+5x)}{(16x^{3}-2x+10)}-(4x^{4}-x^{2}+10x){(20x^{4}-3x^{2}+5)} \over {(16x^{8}-8x^{6}+80x^{5}+x^{4}-20x^{3}+100x^{2})}}}$ ${\displaystyle f'(x)={{(64x^{8}-24x^{6}+40x^{5}+82x^{4}-10x^{3}-10x^{2}+50x)-(80x^{8}-32x^{6}+200x^{5}+23x^{4}-30x^{3}-5x^{2}+50x)} \over {(16x^{8}-8x^{6}+80x^{5}+x^{4}-20x^{3}+100x^{2})}}}$