Quiz:Equivalence of integration problems

1 Suppose ${\displaystyle f}$ is a function with a known antiderivative ${\displaystyle F}$. Which of the following is correct (and can be deduced using integration by parts)?

2 Suppose ${\displaystyle f}$ is a function with a known antiderivative ${\displaystyle F}$. Which of the following integration problems is not equivalent to the others?

3 Suppose we know the first three antiderivatives for ${\displaystyle f}$, i.e., we have explicit expressions for an antiderivative of ${\displaystyle f}$, an antiderivative of that antiderivative, and an antiderivative of the antiderivative of the antiderivative. What is the largest nonnegative integer ${\displaystyle k}$ for which this guarantees us an expression for an antiderivative of ${\displaystyle x\mapsto x^{k}f(x)}$?

4 Suppose we know the first three antiderivatives for ${\displaystyle f}$, i.e., we have explicit expressions for an antiderivative of ${\displaystyle f}$, an antiderivative of that antiderivative, and an antiderivative of the antiderivative of the antiderivative. What is the largest nonnegative integer ${\displaystyle k}$ for which this guarantees us an expression for an antiderivative of ${\displaystyle x\mapsto f(x^{1/k})}$? For simplicity, assume that we are only considering ${\displaystyle x>0}$.

5 Suppose ${\displaystyle f}$ has a known antiderivative ${\displaystyle F}$. Consider the problems of integrating ${\displaystyle f(x^{2}),xf(x^{2}),x^{2}f(x^{2})}$. What can we say about the relation between these problems?

6 Suppose ${\displaystyle f}$ is an elementarily expressible and infinitely differentiable function on the positive reals (so all derivatives of ${\displaystyle f}$ are also elementarily expressible). An antiderivative for ${\displaystyle f''(x)/x}$ is not equivalent up to elementary functions to which one of the following?

1 Suppose ${\displaystyle a}$ and ${\displaystyle b}$ are real numbers that are not positive integers. Which of the following is a sufficient condition for the integration problems ${\displaystyle \int x^{a}e^{x}\,dx}$ and ${\displaystyle \int x^{b}e^{x}\,dx}$ to be equivalent?

2 Suppose ${\displaystyle a}$ and ${\displaystyle b}$ are real numbers that are not positive integers. Which of the following is a sufficient condition for the integration problems ${\displaystyle \int x^{a}e^{x}\,dx}$ and ${\displaystyle \int e^{x^{b}}\,dx}$ to be equivalent? Assume we are working with ${\displaystyle x>0}$, so any real power of ${\displaystyle x}$ makes sense.

3 Suppose ${\displaystyle a}$ and ${\displaystyle b}$ are positive real numbers. Which of the following is a sufficient condition for the integration problems ${\displaystyle \int e^{x^{a}}\,dx}$ and ${\displaystyle \int e^{x^{b}}\,dx}$ to be equivalent? Assume we are working with ${\displaystyle x>0}$, so any real power of ${\displaystyle x}$ makes sense.