If f is the focal length of a convex lens and an object is placed at a distance v from the lens, then its image will be at a distance u from the lens, where f, v, and u are related by the lens equation Find the rate of change of v with respect to u.

Provide an appropriate response.Which of the following statements defines f(x) = ??I. For every positive real number B there exists a corresponding positive real number N such that f(x) > B whenever x > N.II. For every positive real number B there exists a corresponding negative real number N such that f(x) > B whenever x < N.III. For every negative real number B there exists a corresponding negative real number N such that f(x) < B whenever x < N.IV. For every negative real number B there exists a corresponding positive real number N such that f(x) < B whenever x > N

A. I B. II C. IV D. III

Solve the problem.Any offset between a stationary radar gun and a moving target creates a "cosine effect" that reduces the radar mileage reading by the cosine of the angle between the gun and the vehicle. That is, the radar speed reading is the product of the actual reading and the cosine of the angle. Find the radar reading to the nearest hundredth for the auto shown in the figure. 

A. 94.51 mph B. 97.97 mph C. 96.03 mph D. 21.82 mph

Solve the system using Gaussian elimination. -3x - 5y =  -9-15x - 25y =  -4

A. ?
B. {(5, 5)}
C. {(x, y) -3x - 5y = -9}
D. {(-9, -4)}

Provide an appropriate response.Compare the three depreciation methods: straight-line, double-declining-balance, and 

What will be an ideal response?