Solve the equation in part (a) graphically, expressing the solution to the nearest hundredth. Then, use the graph to solve the associated inequalities in parts (b) and (c), expressing endpoints to the nearest hundredth.(a) 
= 0; (b) 
> 0; (c) 
< 0
A. (a) {0} (b) (-1.57, 0) ? (0, ?) (c) (-?, -1.57)
B. (a) {0} (b) (-1.57, 0) ? (0, ?) (c) ?
C. (a) {0, -1.57} (b) (-1.57, 0) ? (0, ?) (c) (-?, -1.57)
D. (a) {0} (b) (-1.57, ?) (c) (-?, -1.57)
Answer: A
You might also like to view...
Indicate whether the equation represents direct variation, inverse variation, or neither. If it is a variation equation, identify the constant of proportionality.xy = 12
A. inverse variation; k = 12
B. neither
C. inverse variation; k = 
D. direct variation; k = 12
Graph the values of x that satisfy the given conditions.-3 < x < 1
A. 
B. 
C. 
D. 
Write the equation in the form y = f(x) by solving for y.11y - 5x3 = 20
A. y = 
B. y = 
C. y = 4 + x3
D. y = 
Solve the system by graphing.-3 = 3x - yy = 3x
A. (0, -3) B. (-3, 0) C. No solution D. Infinitely many solutions