Graph the equation. +  = 1

Solve the problem.The annual population density of a species of insect after n years is modeled by a sequence. Suppose that the initial density of insects is 692 with r = 0.6. Write a recursive sequence that describes this data, where an  denotes the insect density during year n.Find the terms a1 , a2 , a3 , ...., a5 . Round to two decimal places, if necessary.

A. a1 = 415.20, a2 = 249.12, a3 = 149.47, a4  = 89.68, a5  = 53.81 B. a1 = 692, a2 = 1107.20, a3 = 1771.52, a4  = 2834.43, a5  = 4535.09 C. a1 = 692, a2 = 692, a3 = 692, a4  = 692, a5  = 692 D. a1 = 692 , a2 = 415.20, a3 = 249.12, a4  = 149.47, a5  = 89.68

Determine whether the given value is a solution to the given equation.Is 7 a solution to x + 8.5 = 15.1?

A. Yes B. No

Find the indicated nth partial sum of the arithmetic sequence. 1.5, 3.1, 4.7, 6.3, ...., n = 40

a. 1,234 b. 1,308.1 c. 1,308 d. 1,307.9

Use the given zero to find the remaining zeros of the function.f(x) = x3 + 2x2 - 6x + 8; zero: 1 + i

A. 1 - i, -4 B. 1 - i, 4i C. 1 - i, 4 D. -4, 4