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Coin Flip Questions Suppose you flip a coin five times and write down the sequence of results, like “HHHHH” or “HTTHT.” 1 How many ways can you get exactly 1 head? 2 How many ways can you get exactly 2 heads? 3 How many ways can you get exactly 3 heads? Coin Flip Questions Suppose you flip a coin five times and write down the sequence of results, like “HHHHH” or “HTTHT.” 1 How many ways can you get exactly 1 head? C(5, 1) = 5 2 How many ways can you get exactly 2 heads? 3 How many ways can you get exactly 3 heads? Coin Flip Questions Suppose you flip a coin five times and write down the sequence of results, like “HHHHH” or “HTTHT.” 1 How many ways can you get exactly 1 head? C(5, 1) = 5 2 How many ways can you get exactly 2 heads? C(5, 2) = 10 3 How many ways can you get exactly 3 heads? Coin Flip Questions Suppose you flip a coin five times and write down the sequence of results, like “HHHHH” or “HTTHT.” 1 How many ways can you get exactly 1 head? C(5, 1) = 5 2 How many ways can you get exactly 2 heads? C(5, 2) = 10 3 How many ways can you get exactly 3 heads? C(5, 3) = 10 Coin Flip Questions Suppose you flip a coin five times and write down the sequence of results, like “HHHHH” or “HTTHT.” 1 How many ways can you get exactly 1 head? C(5, 1) = 5 2 How many ways can you get exactly 2 heads? C(5, 2) = 10 3 How many ways can you get exactly 3 heads? C(5, 3) = 10 and a more complicated question. . . 4 How many ways are there to get at most 2 heads? 4 How many ways are there to get at most 2 heads? Solution “At most 2 heads” means “0 heads or 1 head or 2 heads.” 1 sequence has 0 heads. 5 sequences have 1 head. 10 sequences have 2 heads. So the number of sequences with at most 2 heads is 1 + 5 + 10 = 16. “At least” and “at most” Remember, at least ≥ at most ≤ For example, “at least 5” means 5 or 6 or 7 or 8 or . . . For example, “at most 5” means 5 or 4 or 3 or 2 or 1 or 0. The Additive Principle The Additive Principle If you can choose one of m options OR one of n options, the total number of possibilities is m + n. Compare this with the Multiplicative Principle from before: The Multiplicative Principle If you have to choose one of m options AND one of n options, the total number of possibilities is mn. The Additive Principle The Additive Principle If you can choose one of m options OR one of n options, the total number of possibilities is m + n. Compare this with the Multiplicative Principle from before: The Multiplicative Principle If you have to choose one of m options AND one of n options, the total number of possibilities is mn. An important table or and + × Another question You flip a coin 5 times and record the sequence of heads and tails, just as before. 5 How many ways are there to get at least 2 heads? The Complement Principle Instead of counting the number of good ways, sometimes it’s easier to count the number of bad ways and subtract. The Complement Principle If you are trying to count the number of ways to do something in some “good” way, (# good ways) = (total # ways) − (# bad ways) A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? Bad solution: C(20, 2) + C(20, 3) + C(20, 4) + C(20, 5) + C(20, 6) + · · · A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? Bad solution: C(20, 2) + C(20, 3) + C(20, 4) + C(20, 5) + C(20, 6) + · · · Good solution: If a “good” sequence has at least 2 heads, then a “bad” sequence has less than 2 heads. A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? Bad solution: C(20, 2) + C(20, 3) + C(20, 4) + C(20, 5) + C(20, 6) + · · · Good solution: If a “good” sequence has at least 2 heads, then a “bad” sequence has less than 2 heads. Total # of sequences: 220 = 1,048,576 A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? Bad solution: C(20, 2) + C(20, 3) + C(20, 4) + C(20, 5) + C(20, 6) + · · · Good solution: If a “good” sequence has at least 2 heads, then a “bad” sequence has less than 2 heads. Total # of sequences: 220 = 1,048,576 # of bad sequences: C(20, 0) + C(20, 1) = 21 A bigger question You flip a coin 20 times and record the sequence of heads and tails, just as before. 6 How many ways are there to get at least 2 heads? Bad solution: C(20, 2) + C(20, 3) + C(20, 4) + C(20, 5) + C(20, 6) + · · · Good solution: If a “good” sequence has at least 2 heads, then a “bad” sequence has less than 2 heads. Total # of sequences: 220 = 1,048,576 − # of bad sequences: C(20, 0) + C(20, 1) = 21 # of good sequences: 1,048,555 Sock Questions You have 5 blue socks and 3 white socks in your sock drawer at random. You want to draw 3 socks from the drawer. 1 How many ways are there to do this? 2 How many ways can you do this and get 3 white socks? 3 How many ways can you do this and get 2 white socks and 1 blue sock? 4 How many ways can you do this and get 1 white sock and 2 blue socks? 5 How many ways can you do this and get 3 blue socks? 6 How many ways can you do this and get at least 2 white socks? Multiple Steps Multi-Step Strategy To do a complicated problem, try to break it up into a sequence of smaller choices. Then we’ll use the multiplicative principle to combine those smaller numbers. A Short Summary We’ve learned several principles for attacking these counting problems. Multi-Step Strategy: Break the problem up into a sequence of smaller choices. (Once we figure out those smaller numbers, we can multiply them together.) Additive Principle: If you can do X or Y, count the number of ways of each of them and add. Change the words “at least” and “at most” into several options with “or.” For example, “at most 3” means “0 or 1 or 2 or 3.” Complement Principle: If counting the good ways seems hard, maybe it would be easier to count the bad ways and subtract. Practice Problems 1 How many 5-card poker hands have exactly 3 spades? 2 How many 5-card poker hands have at least one spade?
