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Is flipping two coins independent or dependent?

Is flipping two coins independent or dependent?

Flipping a coin is an example of an independent event. When flipping a coin, the probability of getting a head does not change no matter how many times you flip the coin.

What is the probability of throwing 2 coins then getting only head?

The probability of getting heads on the toss of a coin is 0.5. If we consider all possible outcomes of the toss of two coins as shown, there is only one outcome of the four in which both coins have come up heads, so the probability of getting heads on both coins is 0.25. The second useful rule is the Sum Rule.

What are the possible outcomes of tossing 2 coins?

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When we toss two coins simultaneously then the possible of outcomes are: (two heads) or (one head and one tail) or (two tails) i.e., in short (H, H) or (H, T) or (T, T) respectively; where H is denoted for head and T is denoted for tail.

When two coins are tossed what is the probability that both are tails?

12
Two coins are tossed simultaneously; we can obtain the combination of sample space as shown below. The number of sample space n(S) is 4. Add the above two probabilities to obtain the probability of both heads or both tails. Thus, the probability of occurrence of both heads or both tails is 12.

Is coin tossing dependent?

The events of tossing two coins at a time are not dependent. The events are independent because the the outcome that will appear on one coin is not affected by the outcome that appears on another coin.

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When two coins are tossed simultaneously then the probability of getting no tail is?

Assertion: When two coins are tossed simultaneously then probability of getting no tail is 1/4.

What is the chance that two coins tossed simultaneously will land either both heads up or tails up?

Each of these outcomes has the same probability: 1 in 4, or 0.25, assuming that the coins are fair and not biased. This means the chances of getting ‘heads’ or ‘tails’ is always the same, at 1 in 4, or 25\%.