1. The table shows the results of spinning a four-colored spinner 50 times. Find the experimental probability and express it as a decimal.
P(not red) = ?
(1 point)
a 0.6
b 0.4
c 0.2
d 0.3
3. The table below shows the results of flipping two coins. How does the experimental probability of getting at least one tails compare to the
theoretical probability of getting at least one?
A The experimental probability is 3% greater than the theoretical probability.
B The theoretical probability is 3% greater than the experimental probability.
C The experimental probability is equal to the theoretical probability.
D The experimental probability is about 1% less than the theoretical probability. 1. The table shows the results of spinning a four-colored spinner 50 times. Find the experimental probability and express it as a decimal.
P(not red) = ?
(1 point)
a 0.6
b 0.4
c 0.2
d 0.3
3. The table below shows the results of flipping two coins. How does the experimental probability of getting at least one tails compare to the
theoretical probability of getting at least one? i don't get either one.plz help me.
A The experimental probability is 3% greater than the theoretical probability.
B The theoretical probability is 3% greater than the experimental probability.
C The experimental probability is equal to the theoretical probability.
D The experimental probability is about 1% less than the theoretical probability.
ALSO THE TABELS ARE for the first one its
red blue green yellow
20 10 9 11
second one
HH HT TH TT
28 22 34 16
6 answers
20 + 9 + 11 = 40
Since the spinner was spun 50 times, the experimental probability of P(not blue) is:
40/50 = 0.8
So the answer to P(not blue) is 0.8.