Respuesta :
Answer:
The inner function is [tex]h(x)=4x^2 + 8[/tex] and the outer function is [tex]g(x)=3x^5[/tex].
The derivative of the function is [tex]\frac{d}{dx}\left(3\left(4x^2+8\right)^5\right)=120x\left(4x^2+8\right)^4[/tex].
Step-by-step explanation:
A composite function can be written as [tex]g(h(x))[/tex], where [tex]h[/tex] and [tex]g[/tex] are basic functions.
For the function [tex]f(x)=3(4x^2+8)^5[/tex].
The inner function is the part we evaluate first. Frequently, we can identify the correct expression because it will appear within a grouping symbol one or more times in our composed function.
Here, we have [tex]4x^2+8[/tex] inside parentheses. So [tex]h(x)=4x^2 + 8[/tex] is the inner function and the outer function is [tex]g(x)=3x^5[/tex].
The chain rule says:
[tex]\frac{d}{dx}[f(g(x))]=f'(g(x))g'(x)[/tex]
It tells us how to differentiate composite functions.
The function [tex]f(x)=3(4x^2+8)^5[/tex] is the composition, [tex]g(h(x))[/tex], of
outside function: [tex]g(x)=3x^5[/tex]
inside function: [tex]h(x)=4x^2 + 8[/tex]
The derivative of this is computed as
[tex]\frac{d}{dx}\left(3\left(4x^2+8\right)^5\right)=3\frac{d}{dx}\left(\left(4x^2+8\right)^5\right)\\\\\mathrm{Apply\:the\:chain\:rule}:\quad \frac{df\left(u\right)}{dx}=\frac{df}{du}\cdot \frac{du}{dx}\\f=u^5,\:\:u=\left(4x^2+8\right)\\\\3\frac{d}{du}\left(u^5\right)\frac{d}{dx}\left(4x^2+8\right)\\\\3\cdot \:5\left(4x^2+8\right)^4\cdot \:8x\\\\120x\left(4x^2+8\right)^4[/tex]
The derivative of the function is [tex]\frac{d}{dx}\left(3\left(4x^2+8\right)^5\right)=120x\left(4x^2+8\right)^4[/tex].
