Find the maximum or minimum value of the given objective function of a linear programming problem. The figure illustrates the graph of feasible points.  z = x + 6y. Find maximum.

Solve the problem.What conditions, when present, are sufficient to conclude that a function f(x) has a limit as x approaches some value of a?

A. f(a) exists, the limit of  as  from the left exists, and the limit of  as  from the right exists.
B. The limit of  as  from the left exists, the limit of  as  from the right exists, and at least one of these limits is the same as f(a).
C. The limit of  as  from the left exists, the limit of  as  from the right exists, and these two limits are the same.
D. Either the limit of  as  from the left exists or the limit of  as  from the right exists

Multiply. Simplify the answer completely.-  ?  

A. - 
B.
C. - 
D.

Graph the function corresponding to the sequence defined. Use the graph to decide whether the sequence converges or diverges.an = 

A. Diverges B. Converges

The weekly sales in Honolulu Red Oranges is given by the following equation. ? ? Calculate the elasticity of demand for a price of $27 per orange. Round your answer to the two decimal places. ?

A. -1.54 B. -1.65 C. 1.65 D. 1.43 E. 1.54