Difference between revisions of "Calculus:Derivative of Polynomial Functions"
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(Created page with "===Derivative of Polynomial Functions=== =======use Notation::Newton Derivative of Polynomial Functions======= #The sum rul...") |
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#The Product Rule <math>{d (f g) \over d x}'= f {d g \over d x} + g {d f \over d x}</math> | #The Product Rule <math>{d (f g) \over d x}'= f {d g \over d x} + g {d f \over d x}</math> | ||
#The Quotient Rule <math>{d ({f \over g}) \over d x} = { g {d f \over d x} - f {d g \over d x} \over g^2} </math> | #The Quotient Rule <math>{d ({f \over g}) \over d x} = { g {d f \over d x} - f {d g \over d x} \over g^2} </math> | ||
<noinclude> | |||
==Examples== | |||
==Example 1== | |||
Ex1:f(x^4+2x^2+4x+2) | |||
==Example 2== | |||
==Example 3== | |||
==Example 4== | |||
</noinclude> | |||
Revision as of 00:50, 11 August 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
Example 1
Ex1:f(x^4+2x^2+4x+2)