1 / 14

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.

arteaga
Download Presentation

Statistics 1: Elementary Statistics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  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”

More Related