10.8 Geometric Probability

1. 10.8 Geometric Probability Geometry

2. Objectives/DFA/HW • Objectives • SWBAT use segment & area models to find the probabilities of events. • DFA • p.585 #16 • HW • pp. 584-586 (2-42 even) • REMINDER: CH 10 TEST IS Thursday!!!

3. Finding a Geometric Probability • A probability is a number from 0 to 1 that represents the chance an event will occur. Assuming that all outcomes are equally likely, an event with a probability of 0 CANNOT occur. An event with a probability of 1 is just as likely to occur as not.

4. Finding Geometric probability continued . . . • In an earlier course, you may have evaluated probabilities by counting the number of favorable outcomes and dividing that number by the total number of possible outcomes. In this lesson, you will use a related process in which the division involves geometric measures such as length or area. This process is called GEOMETRIC PROBABILITY.

5. Geometric Probability—probability and length • Let AB be a segment that contains the segment CD. If a point K on AB is chosen at random, then the probability that that it is on CD is as follows: Length of CD P(Point K is on CD) = Length of AB

6. Geometric Probability—probability and AREA • Let J be a region that contains region M. If a point K in J is chosen at random, then the probability that it is in region M is as follows: Area of M P(Point K is in region M) = Area of J M

7. Ex. 1: Finding a Geometric Probability • Find the geometric probability that a point chosen at random on RS is on TU.

11. Reminders: • Chapter 10 Review Wednesday and Chapter 10 Test Thursday • Absences: More than 10, and I will fail you per attendance policy. This includes tardies (3 tardies = 1 absence).