This problem solving activity has a statistics focus.
Penny's favourite pizza restaurant offers 6 toppings: ham, onions, mushrooms, pineapple, tomato and peppers.
Penny orders a pizza with ham and pineapple.
Unfortunately the server only writes down that she wants 2 toppings but doesn't write down what they are.
The cook decides to pick two toppings at random.
What is the probability that Penny will get the pizza she ordered?
This problem involves working out the probability of an event when the outcomes are equally likely to occur. (In this case each topping is equally likely to be chosen by the chef.) The probability of any particular outcome is:
In the problem extension we are interested in a particular set of outcomes. The probability is expressed by the fraction:
Students should see that any fraction of this type must be between 0 and 1, since the numerator cannot be negative and cannot be bigger than the denominator. If the set of "outcomes that you are interested in" contains all the possible outcomes, then you are certain to get the result you are interested in, and the fraction is equal to 1. Likewise, an event that is impossible has a probability equal to 0.
The focus is on making a list of possible outcomes as a method for finding probability.
Penny's favourite pizza restaurant offers 6 toppings: ham, onions, mushrooms, pineapple, tomato and peppers. Penny orders a pizza with ham and pineapple. Unfortunately the server only writes down that she wants 2 toppings but doesn't write down what they are. The cook decides to pick two toppings at random.
What is the probability that Penny will get the pizza she ordered?
Penny actually likes all the toppings except peppers and mushrooms. What is the probability that she will get a pizza that she likes now?
Probably the most common approach is to make a list or tree diagram of all the possible two-topping combinations (ensuring that all combinations are only recorded once). Such a list might be organised like:
Ham and pineapple
Ham and tomatoes
Ham and peppers
Ham and mushrooms
Ham and onions
Pineapple and tomatoes
Pineapple and peppers
Pineapple and mushrooms
Pineapple and onions
Tomatoes and peppers
Tomatoes and mushrooms
Tomatoes and onions
Peppers and mushrooms
Peppers and onions
Mushrooms and onions
With the list of 15 pizzas (5 + 4 + 3+ 2 + 1) , the students will be able to see that Penny has 1/15 chance of getting the pizza she ordered.
6 of the 15 pizzas are ones that Penny likes, so her probability of getting one of these is 6/15.
Printed from https://meaningfulmaths.nt.edu.au/mmws/nz/resource/penny-s-pizza at 8:57pm on the 26th February 2024