d/dx ((2x)^2) =d/dx (4x^2) =4 d/dx ( x^2) =4 * 2 * (x ^ (2-1)) =8x

For matrix-valued functions I like to express derivatives in terms of the differential. If \delta X is a variation of X, then d\left[X^TX\right](\delta X) = \delta X^TX + X^T\delta X, where by ...

The problem is that y is a function of x, that is y=y(x). Using the chain rule you can compute \begin{equation} \frac{d(y^2(x))}{dx} = 2y \frac{dy}{dx} \end{equation} You should read the chain ...

I think you're being asked to know the following fact. Let f be any reasonably nice function — smooth is plenty good enough. Then \frac{\mathrm d}{\mathrm d x} \int_0^x f(t)\,\mathrm d t = f(x). ...

The type of argument you describe is a big motivation for the definition of a continuous function . A basic result which captures the spirit of what you want is this: a continuous function f : X \to Y ...

Let g(x)=x^3, then f(x^3)=f(g(x)). Then use the chain rule (f(g(x)))' = f'(g(x))g'(x) So we just need f'(x) and g'(x). f'(x) = 3x^2 and g'(x) = 3x^2 as well (because f and g ...