Difference between revisions of "Calculus:Derivative of Polynomial Functions"
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===[[Calculus:Derivative of Polynomial Functions|Derivative of Polynomial Functions]]=== | ===[[Calculus:Derivative of Polynomial Functions|Derivative of Polynomial Functions]]=== | ||
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=======[[use Notation::Newton]] Derivative of Polynomial Functions======= | =======[[use Notation::Newton]] Derivative of Polynomial Functions======= | ||
#The sum rule <math>(f+g)'=f'+g'</math> | #The sum rule <math>(f+g)'=f'+g'</math> |
Revision as of 14:19, 15 September 2021
Derivative of Polynomial Functions
=Newton Derivative of Polynomial Functions=
- The sum rule
- The Difference Rule
- The Product Rule
- The Quotient Rule
=Leibniz Derivative of Polynomial Functions=
- The sum rule
- The Difference Rule
- The Product Rule
- The Quotient Rule
Examples
Find the derivative
Example 1
Ex1:
Using the sum rule we can divided in to different part
so we will started to work on different part by using power rule.
Example 2
Ex2:
The Product Rule
Using the Product Rule we can divided in to different part
Example 3
Ex3:
Now we can understand v as x the idea will be the same.
By using the quotient rule
we can under stand it as
f(v)=4v^4 g(v)=v^3 + 5v
so we will get
Failed to parse (syntax error): {\displaystyle ]z'(v) =(v^3 + 5v)(4v^4)' - (4v^4)(v^3 + 5v)'\over (v^3 + 5v)^2 } }
Failed to parse (syntax error): {\displaystyle ]z'(v) =(v^3 + 5v)(16v^3) - (4v^4)(v^3 + 5v)'\over (v^3 + 5v)^2 } }