Solve the problem by integration.Find the area bounded by y = csc 3 x cot x, x = , x = , and y = 0.

State the instructions of the function in words.f(t) = 

A. Multiply the independent variable by 2 and then subtract 8. Square this difference. Add 2 to the independent variable. Divide the first result by the second result. B. Multiply the independent variable by 2 and square the product. Then subtract 8 from the square. Add 2 to the independent variable. Divide the first result by the second result. C. Square the independent variable. Multiply the square by 2 and then subtract 8 from the result. Add 2 to the independent variable. Divide the first result by the second result. D. Subtract 8 from 2 and multiply this difference by the square of the independent variable. Add 2 to the independent variable. Divide the first result by the second result.

Provide an appropriate response.Use the max-min inequality to show that 1 ? ? 2.

What will be an ideal response?

Evaluate the absolute value.|2|

A. 4 B. 0 C. 2 D. -2

Solve the problem.The relation between escape velocity, ve, and orbital velocity, vc, is described by the equation . If a spacecraft requires a velocity of 82,500 miles per hour in order to escape the gravitational pull of Planet A, what velocity is needed to travel in a circular orbit around Planet A? Round to the nearest hundredth.

A. 116,672.62 miles per hour B. 82,498.59 miles per hour C. 58,336.31 miles per hour D. 406.2 miles per hour