Quiz:Product rule for differentiation

1 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are both twice differentiable functions everywhere on ${\displaystyle \mathbb {R} }$. Which of the following is the correct formula for ${\displaystyle (f\cdot g)''}$, the second derivative of the pointwise product of functions?

2 Suppose ${\displaystyle f_{1},f_{2},f_{3}}$ are everywhere differentiable functions from ${\displaystyle \mathbb {R} }$ to ${\displaystyle \mathbb {R} }$. What is the derivative ${\displaystyle (f_{1}\cdot f_{2}\cdot f_{3})'}$, where ${\displaystyle f_{1}\cdot f_{2}\cdot f_{3}}$ denotes the pointwise product of functions?

1 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are continuous functions at ${\displaystyle x_{0}}$ and ${\displaystyle f\cdot g}$ is the pointwise product of functions. Which of the following is true (see last two options!)?

2 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are continuous functions at ${\displaystyle x_{0}}$ and ${\displaystyle f\cdot g}$ is the pointwise product of functions. What is the relationship between the differentiability of ${\displaystyle f}$, ${\displaystyle g}$, and ${\displaystyle f\cdot g}$ at ${\displaystyle x_{0}}$?

1 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are both defined and differentiable at the point 1. Suppose ${\displaystyle \!f(1)=2,g(1)=5,f'(1)=4,g'(1)=11}$. What is the value of ${\displaystyle (f\cdot g)'(1)}$ where ${\displaystyle f\cdot g}$ denotes the pointwise product of functions?

2

What is the derivaitve of the function ${\displaystyle x\mapsto \exp(x)\sin x}$? Hint for derivatives of individual functions: [SHOW MORE]

Derivative of ${\displaystyle \exp }$ is ${\displaystyle \exp }$, and derivative of ${\displaystyle \sin }$ is ${\displaystyle \cos }$.

3 What is the derivaitve of the function ${\displaystyle x\mapsto {\sqrt {x}}\sin(x^{2})}$ for ${\displaystyle x>0}$? This question also requires use of chain rule for differentiation.

1 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are infinitely differentiable functions on all of ${\displaystyle \mathbb {R} }$ such that both ${\displaystyle f'}$ and ${\displaystyle g'}$ are periodic functions with the same period ${\displaystyle h>0}$. What can we conclude about ${\displaystyle f\cdot g}$?

2 Suppose ${\displaystyle f}$ and ${\displaystyle g}$ are functions defined and differentiable on the open interval ${\displaystyle (0,1)}$. Suppose, further, that on ${\displaystyle (0,1)}$, the derivative functions ${\displaystyle \!f'}$ and ${\displaystyle \!g'}$ are both expressible as rational functions. What can we say about ${\displaystyle f\cdot g}$ and ${\displaystyle (f\cdot g)'}$ on ${\displaystyle (0,1)}$?