16 outcomes
It is neither. If you repeated sets of 8 tosses and compared the number of times you got 6 heads as opposed to other outcomes, it would comprise proper experimental probability.
eight
If you toss eight coins, there are 256 (28) different outcomes.
One in eight, or 12.5%.
Both rolling and eight or picking three dice from a jar could be possible outcomes of an experiment.
Should be 16 possibilities: Coin on heads + 8 possibilities on die; Coin on tails + 8 possibilities on die = 16 total possibilities.
d-bags inventing even more sides
eight
It is neither. If you repeated sets of 8 tosses and compared the number of times you got 6 heads as opposed to other outcomes, it would comprise proper experimental probability.
In three flips of a fair coin, there are a total of 8 possible outcomes: T, T, T; T, T, H; T, H, T; T, H, H; H, H, H; H, H, T; H, T, H; H, T, T Of the possible outcomes, four of them (half) contain at least two heads, as can be seen by inspection. Note: In flipping a coin, there are two possible outcomes at each flipping event. The number of possible outcomes expands as a function of the number of times the coin is flipped. One flip, two possible outcomes. Two flips, four possible outcomes. Three flips, eight possible outcomes. Four flips, sixteen possible outcomes. It appears that the number of possible outcomes is a power of the number of possible outcomes, which is two. 21 = 2, 22 = 4, 23 = 8, 24 = 16, .... Looks like a pattern developing there. Welcome to this variant of permutations.
If you toss eight coins, there are 256 (28) different outcomes.
eight
There are eight possible outcomes: HHH, HHT, HTT, HTH, THT, TTT, TTH, THH.
There are eight (8).
Eight of them.
One in eight, or 12.5%.
two=1way three=2ways four=3ways five=4ways six=5 ways seven=6 ways eight=5ways nine=4ways ten=3 ways eleven= 2 ways twelve=1 way. Seven has the most ways, so seven is the most commonly rolled number.