Use the given model to solve the application problem.A formula used to determine the velocity v in feet per second of an object (neglecting air resistance) after it has fallen a certain distance is  where g is the acceleration due to gravity and h is the distance the object has fallen. If the acceleration g due to gravity on Earth is approximately 32 feet per second per second, find the velocity of a bowling ball after it has fallen 50 feet. (Round to one decimal place).

Solve the problem.The motion of a spring-mass system is described by the equation  where y is the distance in feet from the equilibrium position and t is time in seconds. If the weight is 18 feet from the ceiling in a state of equilibrium, find the starting position of the weight 

A. 12 ft B. 6 ft C. 36 ft D. 18 ft

Decide whether the statement is true or false. If the statement is false, give an example to show that it is false.A Hamilton circuit for a graph visits each vertex.

Fill in the blank(s) with the appropriate word(s).

Provide an appropriate response.One factor of x2 - 12x + 36 is

A. x - 4 B. x - 9 C. x + 6 D. x +1 E. x - 6

Determine whether the function is even, odd, or neither.f(x) = -7x3 + 3x

A. Even B. Odd C. Neither