You have a coin that has a probability p of coming up Heads. (Note that this...

You have a coin (that we do not know is biased or not) that has a...

You have a coin (that we do not know is biased or not) that has a probability "p" of coming up Heads (which may be different than 1/2). Suppose you toss this coin repeatedly until you observe 1 Head. What is the expected number of times you have to toss it?

coin 1 has probability 0.7 of coming up heads, and coin 2 has probability of 0.6...

coin 1 has probability 0.7 of coming up heads, and coin 2 has probability of 0.6 of coming up heads. we flip a coin each day. if the coin flipped today comes up head, then we select coin 1 to flip tomorrow, and if it comes up tail, then we select coin 2 to flip tomorrow. find the following: a) the transition probability matrix P b) in a long run, what percentage of the results are heads? c) if the...

A coin having probability p of coming up heads is successively flipped until two of the...

A coin having probability p of coming up heads is successively flipped until two of the most recent three flips are heads. Let N denote the number of flips. (Note that if the first two flips are heads, then N = 2.) Find E[N]. (please do not just copy the answer from other solutions, I need a thoroughly explained answer)

You repeatedly flip a coin, whose probability of heads is p = 0.6, until getting a...

You repeatedly flip a coin, whose probability of heads is p = 0.6, until getting a head immediately followed by a tail. Find the expected number of flips you need to do.

Your friend claims he has a fair coin; that is, the probability of flipping heads or...

Your friend claims he has a fair coin; that is, the probability of flipping heads or tails is equal to 0.5. You believe the coin is weighted. Suppose a coin toss turns up 15 heads out of 20 trials. At α = 0.05, can we conclude that the coin is fair (i.e., the probability of flipping heads is 0.5)? You may use the traditional method or P-value method.

A bias coin has the probability 2/3 of turning up heads. The coin is thrown 4...

A bias coin has the probability 2/3 of turning up heads. The coin is thrown 4 times. (a)What is the probability that the total number of heads shown is 3? (b)Suppose that we know that outcome of the first throw is a head. Find the probability that the total number of heads shown is 3. (c)If we know that the total number of heads shown is 3, find the probability that the outcome of the first throw was heads.

With a coin that has probability only 1/10 of coming up heads, show that the probability...

With a coin that has probability only 1/10 of coming up heads, show that the probability is less than 1/900 that in 10,000 flips the number of heads will be less than 2000.

Suppose I have two biased coins: coin #1, which lands heads with probability 0.9999, and coin...

Suppose I have two biased coins: coin #1, which lands heads with probability 0.9999, and coin #2, which lands heads with probability 0.1. I conduct an experiment as follows. First I toss a fair coin to decide which biased coin I pick (say, if it lands heads, I pick coin #1, and otherwise I pick coin #2) and then I toss the biased coin twice. Let A be the event that the biased coin #1 is chosen, B1 the event...

A game consists of tossing a fair coin until heads turns up for the first time....

A game consists of tossing a fair coin until heads turns up for the first time. If the coin lands heads on the 1st toss, you get $2. If the coin lands heads on the 2nd toss, you get 2^2=$4. ... If the coin lands heads on the 9th toss, you get 2^9=$512. Finally, if the coin lands heads on or after the 10th toss, you get $1024. What is the expected value (payout) of this game?

A coin, having probability p of landing heads, is continually flipped until at least one head...

A coin, having probability p of landing heads, is continually flipped until at least one head and one tail have been flipped.   Find the expected number of flips that land on heads. Find the expected number of flips that land on tails.