How do you find the derivative for sqrt(x)/(x^3+1)?
1 Answer
Explanation:
You can differentiate this function by using the quotient rule, which allows you to differentiate a function that can be written as
color(blue)(y = f(x)/g(x)) , withg(x) !=0
by using the formula
color(blue)(d/dx(y) = ([d/dx(f(x))] * g(x) - f(x) * d/dx(g(x)))/((g(x))^2)
In your case, you can say that
f(x) = sqrt(x)" " and" "g(x) = x^3 + 1
This means that you can write
d/dx(y) = ([d/dx(sqrt(x))] * (x^3 + 1) - sqrt(x) * d/dx(x^3 - 1))/(x^3 + 1)^2
y^' = (1/2 * x^(-1/2) * (x^3 + 1) - x^(1/2) * 3x^2)/(x^3 + 1)^2
y^' = (x^(-1/2) * [1/2 * (x^3 + 1) - x * 3x^2]]/(x^3 + 1)^2
y^' = (x^(-1/2) * [1/2 * (x^3 + 1 - 2 * 3x^3)])/(x^3 + 1)^2
y^' = 1/2 * x^(-1/2) * (1-5x^3)/(x^3 + 1)^2
This can be rewritten as
y^' = color(green)((1-5x^3)/(2sqrt(x) * (x^3+1)^2))