Solve the problem.Specify i, n, R, and P for the following annuity.$36,029.38 is deposited into an account paying 6% interest compounded monthly. At the end of each month, $400 is withdrawn from the account for 10 years.

Simplify, if possible.

A.
B.
C.
D.

Solve the problem.During rush hours, substantial traffic congestion is encountered at the intersections shown inthe figure. The arrows indicate one-way streets. As the figure shows, 200 cars per hour come down   to intersection A, and 800 cars per hour come down  to intersection A. x of these cars leave A on  and w cars leave A on  -4.0px;" />  800 in 600 out    200 out 400 in  5th Street 6th StreetThe number of cars entering intersection A must equal the number leaving, so that  or   By writing an equation representing the traffic entering and leaving each of the intersections A, B, C, and D, obtain a system of four equations. Solve the system using w as the parameter and use your answer to determine the largest and smallest possible values for the number of cars leaving intersection D on R Street.

A. 1000; 100
B. 1100; 0
C. 1000; 0
D. 1100; 100

Provide an appropriate response.A student is trying to solve the equation (x + 5)(x - 10) = 2. The student has set x + 5 = 2 and x - 10 = 2 and found that two solutions x = -3, x = 12. The student checks his or her results by plugging in his or her solutions into the original equation and finds that they do not work. How would you advise him or her?

What will be an ideal response?

Find the dimension of the matrix. Tell if the matrix is a square, column, or row matrix, when applicable.

A. 2 × 4 B. 4 × 2 C. 2 × 3 D. 3 × 2