GEOMETRY Lesson 4.2.1.

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Presentation transcript:

GEOMETRY Lesson 4.2.1

THE CURRENT CLASSROOM “MODE” Quiet Work: Starter Stand & Deliver Open Discussion Team Work

STANDARDS FOR QUIET WORK: Starter I complete the starter in my notebook in pencil. I include the entry #, title, and date. I copy the problem/question. I work silently. I work neatly and draw a horizontal line before beginning the next entry.

Entry 32: Starter What angle has a slope ratio of 5:1?

Today’s Objective-Entry 33 I will use an area model to calculate probability. How will I be assessed? Quiz Friday! At least 1 problem on the quiz will be from today

THE CURRENT CLASSROOM “MODE” Quiet Work Stand & Deliver Open Discussion Team Work

DURING OPEN DISCUSSION… I contribute my ideas to class discussion. I listen to others when they are speaking. I wait for the appropriate time to contribute my ideas. I am polite in my interactions with other students and the teacher.

Entry 34: Problem 4-53 Can you bend your thumb backwards at the middle joint to make an angle, like the example at right?  Or does your thumb remain straight?  The ability to bend your thumb back is thought to rely on a single gene.   What about your tongue?  If you can roll your tongue into a “U” shape, you probably have a special gene that enables you to do this.  Assume that half of the U.S. population can bend their thumbs backwards and that half can roll their tongues.  Also assume that these genes are independent (in other words, having one gene does not affect whether or not you have the other) and randomly distributed spread out) throughout the population.   

Problem 4-53 continued Then the sample space of these genetic traits can be organized in a table. According to this table, what is the probability that a random person from the U.S. has both special traits?  That is, what is the chance that he or she can roll his or her tongue and bend his or her thumb back?   According to this table, what is the probability that a random person has only one of these special traits?  Justify your conclusion.  This table is useful because every cell in the table is equally likely.  Therefore, each possible outcome, such as being able to bend your thumb but not roll your tongue, has a  probability.  However, this table assumes that half the population can bend their thumbs backwards, but in reality only about  of the U.S. population can bend their thumbs backwards and  cannot.  It also turns out that a lot more (about ) of the population can roll their tongues.  How can this table be adjusted to represent these percentages?  Discuss this with your team and be prepared to share your ideas with the class.   

THE CURRENT CLASSROOM “MODE” Quiet Work Stand & Deliver Open Discussion Team Work

DURING TEAM WORK… I work cooperatively with my team members to accomplish a particular goal by: Performing assigned tasks/roles Listening to my team members Respecting the ideas of others Being a helpful contributor to the team.

Entry 35: Problem 4-54 One way to represent a sample space that has outcomes that are not equally likely is by using a probability area model.  An area model uses a large square with an area of 1.  The square is subdivided into smaller pieces to represent all possible outcomes in the sample space.  The area of each outcome is the probability that the outcome will occur. For example, if  of the U.S. population can bend their thumbs back, then the column representing this ability should take only one-fourth of the square’s width, as shown below. How should the diagram be altered to show that  of the U.S. can roll their tongues?  Copy this diagram on your paper and add two rows to represent this probability.   The relative probabilities for different outcomes are represented by the areas of the regions.  For example, the portion of the probability area model representing people with both special traits is a rectangle with a width  of   and a height of .  What is the area of this rectangle?  This area tells you the probability that a random person in the U.S. has both traits. What is the probability that a randomly selected person can roll his or her tongue but not bend his or her thumb back?  Show how you got this probability. 

Entry 35: Problem 4-55 You and your best friend may not only look different, you may also have different types of blood!  For instance, members of the American Navajo population can be classified into two groups: 73% percent (73 out of 100) of the Navajo population has type “O” blood, while 27% (27 out of 100) has type “A” blood.  (Blood types describe certain chemicals, called “antigens,” that are found in a person’s blood.) Suppose you select two Navajo individuals at random.  What is the probability that both individuals have type “A” blood?  This time, drawing an area model that is exactly to scale would be challenging.  A probability area model (like the one above) is still useful because it will still allow you to calculate the individual areas, even without drawing it to scale.  Copy and complete this “generic” probability area model.  What is the probability that two Navajo individuals selected at random have the same blood type? 

END OF CLASS HOMEWORK is Entry 36 Problems 4-58 through 4-63 SECURE YOUR GEAR Please put the chairs up.