a ′ ( x ) = x 3 ( 2 x − 5 ) 4 {\displaystyle a'(x)=x^{3}{(2x-5)}^{4}}
Product Rule ( f ∗ g ) ′ = f ∗ g ′ + g ∗ f ′ {\displaystyle (f*g)'=f*g'+g*f'}
f = x 3 {\displaystyle f=x^{3}} f ′ = 3 x 2 {\displaystyle f'=3x^{2}} g = ( 2 x − 5 ) 4 {\displaystyle g={(2x-5)}^{4}} g ′ = 4 ( 2 x − 5 ) 3 ( 2 ) {\displaystyle g'=4{(2x-5)}^{3}(2)}
a ′ ( x ) = ( 3 x 2 ) ( ( 2 x − 5 ) 4 ) + ( x 3 ) ( 4 ( 2 x − 5 ) 3 ( 2 ) ) {\displaystyle a'(x)=(3x^{2})({(2x-5)}^{4})+(x^{3})(4{(2x-5)}^{3}(2))}
a ′ ( x ) = ( 3 x 2 ) ( ( 2 x − 5 ) 4 ) + ( x 3 ) ( 8 ( 2 x − 5 ) 3 ) {\displaystyle a'(x)=(3x^{2})({(2x-5)}^{4})+(x^{3})(8{(2x-5)}^{3})}
factorize
a ′ ( x ) = x 2 ( ( 2 x − 5 ) 3 ) ( 8 x ) + 3 ( 2 x − 5 ) ) {\displaystyle a'(x)=x^{2}({(2x-5)}^{3})(8x)+3(2x-5))}
a ′ ( x ) = x 2 ( ( 2 x − 5 ) 3 ) ( 8 x + 6 x − 15 ) ) {\displaystyle a'(x)=x^{2}({(2x-5)}^{3})(8x+6x-15))}
a ′ ( x ) = x 2 ( 2 x − 5 ) 3 ( 14 x − 15 ) ) {\displaystyle a'(x)=x^{2}{(2x-5)}^{3}(14x-15))}
f ′ ( x ) = x 2 4 − 9 x 2 {\displaystyle f'(x)=x^{2}{\sqrt[{2}]{4-9x}}} simplify
Chain rule [ f ( g ( x ) ) ] ′ = f ′ ( g ( x ) ) ∗ g ′ ( x ) {\displaystyle [f(g(x))]'=f'(g(x))*g'(x)}
2 x 4 − 9 x 2 + − 9 2 ( 4 − 9 x ) − 1 2 {\displaystyle 2x{\sqrt[{2}]{4-9x}}+{-9 \over 2}{(4-9x)}^{-1 \over 2}}
x ( 8 − 45 x 2 ) 4 − 9 x 2 4 − 9 x 2 {\displaystyle {x(8-{45x \over 2}){\sqrt[{2}]{4-9x}} \over {\sqrt[{2}]{4-9x}}}}
f ( x ) = x 2 1 − x 2 2 {\displaystyle f(x)=x^{2}{\sqrt[{2}]{1-x^{2}}}} simplify
f ( x ) = x 2 ( 1 − x 2 ) 1 2 {\displaystyle f(x)=x^{2}{(1-x^{2})}^{1 \over 2}}
f ′ ( x ) = x 2 ( 1 2 ( 1 − x 2 ) − 1 2 ( − 2 x ) ) + 2 x ( 1 − x 2 ) 1 2 {\displaystyle f'(x)=x^{2}(1 \over 2{(1-x^{2})}^{-1 \over 2}(-2x))+2x{(1-x^{2})}^{1 \over 2}}
f ′ ( x ) = − x 3 ( 1 − x 2 ) − 1 2 + 2 x ( 1 − x 2 ) 1 2 {\displaystyle f'(x)=-x^{3}{(1-x^{2})}^{-1 \over 2}+2x{(1-x^{2})}^{1 \over 2}}
f ′ ( x ) = x ( 1 − x 2 ) − 1 2 [ − x 2 + 2 ( 1 − x 2 ) ] {\displaystyle f'(x)=x{(1-x^{2})}^{-1 \over 2}[-x^{2}+2{(1-x^{2})}]}
f ′ ( x ) = x ( 1 − x 2 ) 1 2 [ − x 2 + 2 − 2 x 2 ] {\displaystyle f'(x)={x \over {(1-x^{2})}^{1 \over 2}}[{-x^{2}+2-2x^{2}}]}
f ′ ( x ) = x ( 1 − x 2 ) 1 2 [ 2 − 3 x 2 ] {\displaystyle f'(x)={x \over {(1-x^{2})}^{1 \over 2}}{[2-3x^{2}]}}
f ′ ( x ) = x [ 2 − 3 x 2 ] ( 1 − x 2 ) 1 2 {\displaystyle f'(x)={x[2-3x^{2}] \over {(1-x^{2})}^{1 \over 2}}}
f ′ ( x ) = [ 2 x − 3 x 3 ] ( 1 − x 2 ) 1 2 {\displaystyle f'(x)={[2x-3x^{3}] \over {(1-x^{2})}^{1 \over 2}}}
![{\displaystyle f'(x)=x^{2}{\sqrt[{2}]{4-9x}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/39dc3fd3ace4dd663f4ce115bbbf198b994b2934)
simplify
![{\displaystyle [f(g(x))]'=f'(g(x))*g'(x)}](https://wikimedia.org/api/rest_v1/media/math/render/svg/c54bd493d6878d3b0c6779a32bb44dafdd87335e)
![{\displaystyle 2x{\sqrt[{2}]{4-9x}}+{-9 \over 2}{(4-9x)}^{-1 \over 2}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/68423ce3b8c18c73b83e8976bc142b9669184ac1)
![{\displaystyle {x(8-{45x \over 2}){\sqrt[{2}]{4-9x}} \over {\sqrt[{2}]{4-9x}}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/cae0c8b41f737c4693f24f31ca69b2e92385ce7f)
![{\displaystyle f(x)=x^{2}{\sqrt[{2}]{1-x^{2}}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/6d2f239c2f939bdc88fd30de46b254e0367631d9)
simplify
![{\displaystyle f'(x)=x{(1-x^{2})}^{-1 \over 2}[-x^{2}+2{(1-x^{2})}]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/cc1cc3b3c16a6506e73dd601d341fd0984392ca1)
![{\displaystyle f'(x)={x \over {(1-x^{2})}^{1 \over 2}}[{-x^{2}+2-2x^{2}}]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/7c62e733d05db154c0aa1a47666c6db6b3f1635a)
![{\displaystyle f'(x)={x \over {(1-x^{2})}^{1 \over 2}}{[2-3x^{2}]}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/3a98cdb8a8beb7d192a4dc067b7a09bae6643e0f)
![{\displaystyle f'(x)={x[2-3x^{2}] \over {(1-x^{2})}^{1 \over 2}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/69bb423091936276e0133a0091abdd8c034c6eab)
![{\displaystyle f'(x)={[2x-3x^{3}] \over {(1-x^{2})}^{1 \over 2}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/edd6cd88aa35700ae5c33c8b40287cc4cbc0835f)