Exam 3: Inverse Functions: Exponential, Logarithmic, and Inverse Trigonometric Functions

The half-life of cesium- is years. Suppose we have a -mg sample. How much of the sample remains after years?

Use logarithmic differentiation to find the derivative of the function.

Find the limit.

Evaluate the limit using l'Hôpital's Rule.

Solve each equation for x.(a) (b)

The graph of f is given. Sketch the graph of on the same set of axes. 3

The half-life of cesium is years. Suppose we have a -mg sample. Find the mass that remains after years.

Use the laws of logarithms to expand the expression.ln

Find the numerical value of the expression.

Find the exact value of the expression.

Find the derivative of the function. Simplify where possible.

Use the laws of logarithms to write the expression as the logarithm of a single quantity.4 ln 5 - ln (x + 6)

Find the value of the expression accurate to four decimal places.sinh 4

Starting with the graph of , find the equation of the graph that results from reflecting about the line .

Suppose that the graph of is drawn on a coordinate grid where the unit of measurement is an inch. How many miles to the right of the origin do we have to move before the height of the curve reaches 3 ft? Rounded to the nearest mile.

Find the exponential function whose graph is given.

Find the domain, range, and x-intercept(s) of the function.

If is invested at interest, find the value of the investment at the end of years if the interest is compounded .

Find an equation of the tangent line to the curve at .

Determine whether f is one-to-one.