Lesson 4 Fried Freddy’s Solidify Understanding

Learning Focus

Use Venn diagrams to find probabilities.

What connections exist between the Venn diagram and probability notation?

Open Up the Math: Launch, Explore, Discuss

Freddy loves fried food. His passion for the perfect fried food recipes led to him opening the restaurant Fried Freddy’s. His two main dishes are fish and chicken. Knowing he also had to open up his menu to people who prefer to have their food grilled instead of fried, he created the following menu board:

Advertisement for Fried Freddy's Choose dish: Chicken or Fish; Choose cooking preference Grilled or Fried; $7.95Fried Freddy’sChoose dish:Choose cooking preference:Grilled or FriedChicken or Fish

After being open for six months, Freddy realized he was having more food waste than he should because he was not predicting how much fish and chicken he should prepare in advance. His business friend, Tyrell, said he could help.

1.

What information do you think Tyrell would need?

2.

Luckily, Freddy uses a computer to take orders each day so Tyrell had lots of data to pull from. After determining the average number of customers Freddy serves each day, Tyrell created the following Venn diagram to show Freddy the food preference of his customers:

Venn diagram about Fried cooking preference and Fish. FriedFish

How is this Venn diagram different than the one you made in the previous lesson? What do all the percentages add up to on this diagram? Why?

To learn more about what the Venn diagram tells him about his business, Freddy computed the following probabilities:

3.

What is the probability that a randomly selected customer would order fish?

Shade the part of the diagram that models this solution.

a blank venn diagram

4.

What is the probability that a randomly selected customer would order fried fish?

Shade the part of the diagram that models this solution.

a blank venn diagram

5.

What is the probability that a person prefers fried chicken?

Shade the part of the diagram that models this solution.

a blank venn diagram

6.

What is the estimated probability that a randomly selected customer would order fish and want it grilled?

Shade the part of the diagram that models this solution.

a blank venn diagram

7.

What is the probability that a randomly selected person would choose fish or something fried?

Shade the part of the diagram that models this solution.

a blank venn diagram

8.

What is the probability that a randomly selected person would NOT choose fish or something fried?

Shade the part of the diagram that models this solution.

What other probability would describe the same space on the Venn diagram in this context?

a blank venn diagram

9.

If Freddy serves meals at lunch on a particular day, how many orders of fish should he prepare with his famous fried recipe?

10.

Just as Freddy hoped, messing around with the diagrams makes him think he discovered a relationship. Here’s his theory:

Check out Freddy’s theory with numbers from his Venn diagram.

11.

Unfortunately for Freddy, the statisticians of the world beat him to the theorem. (Freddy needs to keep on fryin’.) Statisticians call his idea the Addition Rule. (Freddy might have found a more creative name.) Label the Venn diagram below and use it to show:

a blank venn diagram

Ready for More?

Set Notation can also be used to represent a set of numbers. Answer the following questions about the provided sets. A set of numbers is presented using curly brackets .

Let and be the following sets: 

a.

Create set that represents .

b.

Create set that represents .

c.

Create a Venn diagram using sets and .

d.

Create a real-world scenario which Set and could represent.

Takeaways

Addition Rule for the union of two events and :

Adding Notation, Vocabulary, and Conventions

Term

Notation

Meaning

Additional Information

The complement of A

Intersection of A and B

Union of A and B

Vocabulary

Lesson Summary

In this lesson, we used Venn diagrams to find the probability of the complement of an event, the union of two events, and the intersection of two events. We learned that the probability of the union of two events can be found using the Addition Rule, .

Retrieval

If one action affects the next, then the actions or events are dependent. If one action has no effect on the next, then the actions are considered independent. For each scenario, determine whether the actions or events are dependent or independent, and justify your choice.

1.

Waking up when the alarm clock goes off and being on time to school.

A.

dependent

B.

independent

2.

Rolling a standard six-sided die and tossing a coin.

A.

dependent

B.

independent

Create a proportion and use it to answer the problem.

3.

If a basketball player makes out of shots, how many total shots would you predict they need to take in order to make shots?