dy by using Leibniz's notation for the chain rule, dx dy dy du Given y = f(u) and u = g(x), find %3D dx du dx y = 7u - 9, u = Additional Materials eBook 23. -/1 points OSCALC1 3.6.216. Given y = f(u) and u = g(x), find oy by using Leibniz's notation for the chain rule, Y dx dy du dy du dx dx y = sin(u), u = 4x - 3 dx 히송 dy dy du f(u) and u = g(x), find by using Leibniz's notation for the chain rule, dx Given y = %3D dx du dx 6u + 4, u = x - 9x dy dx Additional Materials O eBook 25. -12 points OSCALC1 3.6.221. Consider the function. y =(7x2 + 6)3 (a) Decompose the function in the form y = f(u) and u = g(x). (Use non-identity functions for f(u) and u.) {f(u), u} = (b) Find as a function of x. dx dx

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dy by using Leibniz's notation for the chain rule, dx dy dy du Given y = f(u) and u = g(x), find %3D dx du dx y = 7u - 9, u = Additional Materials eBook 23. -/1 points OSCALC1 3.6.216. Given y = f(u) and u = g(x), find oy by using Leibniz's notation for the chain rule, Y dx dy du dy du dx dx y = sin(u), u = 4x - 3 dx 히송

Transcribed Image Text:

dy dy du f(u) and u = g(x), find by using Leibniz's notation for the chain rule, dx Given y = %3D dx du dx 6u + 4, u = x - 9x dy dx Additional Materials O eBook 25. -12 points OSCALC1 3.6.221. Consider the function. y =(7x2 + 6)3 (a) Decompose the function in the form y = f(u) and u = g(x). (Use non-identity functions for f(u) and u.) {f(u), u} = (b) Find as a function of x. dx dx