Write the sample space for the experiment. A coin is tossed, and then a die is rolled.
A. S = {(heads, tails, 1, 2, 3, 4, 5, 6)}
B. S = {(heads, 1), (heads, 2), (heads, 3), (heads, 4), (heads, 5), (heads, 6), (tails, 1), (tails, 2), (tails, 3), (tails, 4), (tails, 5), (tails, 6)}
C. S = {(2, 6)}
D. S = {(1, heads), (2, heads), (3, heads), (4, heads), (5, heads), (6, heads), (1, tails), (2, tails), (3, tails), 
(5, tails), (6, tails)}
Answer: B
You might also like to view...
Solve the system by either elimination or substitution. Verify your work by using "intersect" on your graphing calculator of by checking that your result satisfies both equations of the system. x = -8y + 432x + 7y = 32
A. empty set solution; inconsistent system B. (-5, 6) C. (-6, 7) D. (5, 7)
Solve the three-part linear inequality. Graph the solution set on a number line, and express the solution using interval notation.-4 < x - 1 ? 7
A. [-3, 8)
B. (-3, 8]
C. (-5, 6]
D. [-5, 6)
Use Simpson's rule to approximate the integral using the indicated value of n (so there are 2n subintervals). 
dx; n = 4, Round to two decimal places.
A. 0.24 B. 0.34 C. 0.20 D. 0.30
Solve the problem.A person standing close to the edge on top of a 208-foot building throws a baseball vertically upward. The quadratic function 
models the ball's height above the ground, s(t), in feet, t seconds after it was thrown. After how many seconds does the ball reach its maximum height? Round to the nearest tenth of a second if necessary.
A. 6.1 sec B. 2 sec C. 1.5 sec D. 272 sec