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Statistics 1: Elementary Statistics

Statistics 1: Elementary Statistics. Section 4-7. Probability. Chapter 3 Section 2: Fundamentals Section 3: Addition Rule Section 4: Multiplication Rule #1 Section 5: Multiplication Rule #2 Section 6: Simulating Probabilities Section 7: Counting. Learning to Count.

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Statistics 1: Elementary Statistics

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  1. Statistics 1:Elementary Statistics Section 4-7

  2. Probability • Chapter 3 • Section 2: Fundamentals • Section 3: Addition Rule • Section 4: Multiplication Rule #1 • Section 5: Multiplication Rule #2 • Section 6: Simulating Probabilities • Section 7: Counting

  3. Learning to Count • Why do we need to learn to count? • We approach probability through the doorway of relative frequency

  4. Learning to Count • Count ways for A = s • Count all ways = n • Probability = s/n

  5. Five Counting Rules • Fundamental Counting Rule • Factorial Rule • Permutations Rule • Permutations Rule when some items are identical to others • Combinations Rule

  6. Fundamental Counting Rule • Event A can happen in “m” ways • Event B can happen in “n” ways • Then A and B can happen together in (m)(n) ways • Examples

  7. Fundamental Counting Rule Examples • Dice • 1st die can happen in 6 ways • 2nd die can happen in 6 ways • the two dice can happen in (6)(6)=36 ways • Birthday example

  8. Factorial Rule • If there are N distinct items, they can be arranged in N! different sequences • Synonyms: sequences, orders, arrangements

  9. Factorial Rule • Calculator use for “factorials”

  10. Permutations Rule • There are N distinct items • You could form different distinct sequences of size “r” (sequence matters) • How many?

  11. Permutations Rule • Using the calculator function for “permutations”

  12. Permutations Rule #2 • You have N items made up of “k” groups, and within each group the items are not distinct. • The N items together can form this many distinct sequences:

  13. Combinations Rule • There are N distinct items • You could form different combinations of size “r” for which the sequence does not matter • How many?

  14. Combinations Rule • Using the calculator function for “combinations”

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