Making Predictions 11-6 Warm Up Problem of the Day Lesson Presentation

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Presentation transcript:

Making Predictions 11-6 Warm Up Problem of the Day Lesson Presentation Course 1 Warm Up Problem of the Day Lesson Presentation

Making Predictions 11-6 Warm Up Course 1 11-6 Making Predictions Warm Up 1. Zachary rolled a fair number cube twice. Find the probability of the number cube showing an odd number both times. 2. Larissa rolled a fair number cube twice. Find the probability of the number cube showing the same number both times. 1 4 __ 1 36 ___

Making Predictions 11-6 Problem of the Day Course 1 11-6 Making Predictions Problem of the Day The average of three numbers is 45. If the average of the first two numbers is 47, what is the third number? 41

Making Predictions Learn to use probability to predict events. 11-6 Course 1 11-6 Making Predictions Learn to use probability to predict events.

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here Vocabulary prediction

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here A prediction is a guess about something in the future. A way to make a prediction is to use probability.

Additional Example 1A: Using Probability to Make Prediction Course 1 11-6 Making Predictions Additional Example 1A: Using Probability to Make Prediction A. A store claims that 78% of shoppers end up buying something. Out of 1,000 shoppers, how many would you predict will buy something? You can write a proportion. Remember that percent means “per hundred.”

Additional Example 1A Continued Course 1 11-6 Making Predictions Additional Example 1A Continued 78 100 ___ x 1000 ____ = Think: 78 out of 100 is how many out of 1,000. The cross products are equal. 100 • x = 78 • 1,000 x is multiplied by 100. 100x = 78,000 Divide both sides by 100 to undo the multiplication. 100x 100 ____ 78,000 ______ = x = 780 You can predict that about 780 out of 1,000 customers will buy something.

Additional Example 1B: Using Probability to Make Predictions Course 1 11-6 Making Predictions Additional Example 1B: Using Probability to Make Predictions B. If you roll a number cube 30 times, how many times do you expect to roll a number greater than 2? P(greater than 2) = = 4 6 __ 2 3 2 3 __ x 30 ___ = Think: 2 out of 3 is how many out of 30. The cross products are equal. 3 • x = 2 • 30 x is multiplied by 3. 3x = 60

Additional Example 1B Continued Course 1 11-6 Making Predictions Additional Example 1B Continued Divide both sides by 3 to undo the multiplication. 3x 3 __ 60 = x = 20 You can expect to roll a number greater than 2 about 20 times.

Making Predictions 11-6 Try This: Example 1A Course 1 11-6 Making Predictions Try This: Example 1A A. A store claims 62% of shoppers end up buying something. Out of 1,000 shoppers, how many would you predict will buy something? You can write a proportion. Remember that percent means “per hundred.”

Try This: Example 1A Continued Course 1 11-6 Making Predictions Try This: Example 1A Continued 62 100 ___ x 1000 ____ = Think: 62 out of 100 is how many out of 1,000. The cross products are equal. 100 • x = 62 • 1,000 x is multiplied by 100. 100x = 62,000 100x 100 ____ 62,000 ______ = Divide both sides by 100 to undo the multiplication. x = 620 You can predict that about 620 out of 1,000 customers will buy something.

Making Predictions 11-6 Try This: Example 1B Course 1 11-6 Making Predictions Try This: Example 1B B. If you roll a number cube 30 times, how many times do you expect to roll a number greater than 3? P(greater than 3) = = 3 6 __ 1 2 1 2 __ x 30 ___ = Think: 1 out of 2 is how many out of 30. The cross products are equal. 2 • x = 1 • 30 x is multiplied by 2. 2x = 30

Try This: Example 1B Continued Course 1 11-6 Making Predictions Try This: Example 1B Continued Divide both sides by 2 to undo the multiplication. 2x 2 __ 30 = x = 15 You can expect to roll a number greater than 3 about 15 times.

Additional Example 2: Problem Solving Application Course 1 11-6 Making Predictions Additional Example 2: Problem Solving Application A stadium sell yearly parking passes. If you have a parking pass, you can park at that stadium for any event during that year. The managers of the stadium estimate that the probability that a person with a pass will attend any one event is 50%. The parking lot has 400 spaces. If the managers want the lot to be full at every event, how many passes should they sell?

Understand the Problem Course 1 11-6 Making Predictions 1 Understand the Problem The answer will be the number of parking passes they should sell. List the important information: P(person with pass attends event): = 50% There are 400 parking spaces 2 Make a Plan The managers want to fill all 400 spaces. But on average, only 50% of parking pass holders will attend. So 50% of pass holders must equal 400. You can write an equation to find this number.

Making Predictions 11-6 Solve 3 Course 1 11-6 Making Predictions Solve 3 Think: 50 out of 100 is 400 out of how many? 50 100 ___ 400 x ____ = The cross products are equal. 100 • 400 = 50 • x x is multiplied by 50. 40,000 = 50x Divide both sides by 50 to undo the multiplication. 40,000 50 ______ 50x ___ = 800 = x The managers should sell 800 parking passes.

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here Look Back 4 If the managers sold only 400 passes, the parking lot would not usually be full because only about 50% of the people with passes will attend any one event. The managers should sell more than 400 passes, so 800 is a reasonable answer.

Making Predictions 11-6 Try This: Example 2 Course 1 11-6 Making Predictions Try This: Example 2 A stadium sells yearly parking passes. If you have a parking pass, you can park at that stadium for any event during that year. The managers estimate that the probability that a person with a pass will attend any one event is 60%. The parking lot has 600 spaces. If the managers want the lot to be full at every event, how many passes should they sell?

Understand the Problem Course 1 11-6 Making Predictions 1 Understand the Problem The answer will be the number of parking passes they should sell. List the important information: P(person with pass attends event): = 60% There are 600 parking spaces 2 Make a Plan The managers want to fill all 600 spaces. But on average, only 60% of parking pass holders will attend. So 60% of pass holders must equal 600. You can write an equation to find this number.

Making Predictions 11-6 Solve 3 60 100 ___ 600 x ____ Course 1 11-6 Making Predictions Solve 3 60 100 ___ 600 x ____ = Think: 60 out of 100 is 600 out of how many? The cross products are equal. 100 • 600 = 60 • x x is multiplied by 60. 60,000 = 60x Divide both sides by 60 to undo the multiplication. 60,000 60 ______ 60x ___ = 1000 = x The managers should sell 1000 parking passes.

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here Look Back 4 If the managers sold only 600 passes, the parking lot would not usually be full because only about 50% of the people with passes will attend any one event. The managers should sell more than 600 passes, so 1000 is a reasonable answer.

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here Lesson Quiz: Part 1 1. The owner of a local pizzeria estimates that 72% of his customers order pepperoni on their on their pizza. Out of 250 orders taken in one day, how many would you predict to have pepperoni? 180

Insert Lesson Title Here Course 1 11-6 Making Predictions Insert Lesson Title Here Lesson Quiz: Part 2 2. A bag contains 9 red chips, 4 blue chips, and 7 yellow chips. You pick a chip from the bag, record its color, and put the chip back in the bag. If you do this 100 times, how many times do you expect to remove a yellow chip from the bag? 3. A quality-control inspector has determined that 3% of the items he checks are defective. If the company he works for produces 3,000 items per day, how many does the inspector predict will be defective? 35 90