# Fair Share Pair

A couple weeks ago, I was discussing ratio tasks, including Sharing Costs: Travelling to School from MARS, with a colleague who reminded me of a numeracy task from Peter Liljedahl. Here’s my take on Peter’s Payless problem:

Three friends, Chris, Jeff, and Marc, go shopping for shoes. The store is having a buy two pairs, get one pair free sale.

Chris opts for a pair of high tops for \$75, Jeff picks out a pair of low tops for \$60, and Marc settles on a pair of slip-ons for \$45.

The cashier rings them up; the bill is \$135.

How much should each friend pay? Try to find the fairest way possible. Justify your reasoning.

Sharing Pairs.pdf

I had a chance to test drive this task in a Math 9 class. I asked students to solve the problem in small groups and record their possible solutions on large whiteboards. Later, each student recorded his or her fairest share of them all on a piece of paper. If you’re more interested in sample student responses than my reflections, scroll down.

The most common initial approach was to divide the bill by three; each person pays \$45. What’s more fair than same? I poked holes in their reasoning: “Is it fair for Marc to pay the same as Chris? Why? Why not?” Students notice that Chris is getting more shoe for his buck. Also, Marc is being cheated of any discount, as described by Student A. (This wasn’t a happy accident; it’s the reason why I chose the ratio 5:4:3.)

Next, most groups landed on \$60-\$45-\$30. Some, like Student A, shifted from equal shares of the cost to equal shares of the discount; from (\$180 − \$45)/3 to \$45/3. Others, like Students B, C, and D, arrived there via a common difference; in both \$75, \$60, \$45 and \$60, \$45, \$30, the amounts differ by \$15. This approach surprised me. Additive, rather than multiplicative, thinking.

Student C noticed that this discount of \$15 represented different fractions of the original prices; \$15/\$75 = 1/5, \$15/\$60 = 1/4, \$15/\$45 = 1/3. He applied a discount of 1/4 to all three because “it’s the middle fraction.” Likely, this is a misconception that didn’t get in the way of a reasonable solution.

Student D presented similar amounts. Note the interplay of additive and multiplicative thinking. She wants to keep a common difference, but changes it to \$10 to better match the friends’ discounts as percents.

Student E applies each friend’s percent of the original price to the sale price. This approach came closest to my intended learning outcome: “Solve problems that involve rates, ratios and proportional reasoning.”

In spite of not reaching my learning goal, I think that this lesson was a success. The task was accessible yet challenging, allowed students to make and justify decisions, and promoted mathematical discourse.

Still, to increase the future likelihood that students solve this problem using ratios, I’m wondering about changes I could make. Multiples of 20 (\$100-\$80-\$60) rather than 15 (\$75-\$60-\$45)? Different ratios, like 4:3:2 or 5:3:2, might help; the doubles/halves could kickstart multiplicative thinking. (Also, 5:3:2 breaks that arithmetic sequence.)

Or, I could make changes to my questioning.

When I asked “What do you notice?” students said:

• the prices of the shoes are different
• Chris’ shoes are the most expensive
• Marc’s shoes are the cheapest
• Chris’ shoes are \$15 more than Jeff’s, which are \$15 more than Marc’s
• Jeff’s shoes are the fugliest

Maybe I could ask “What else could you say about the prices of Chris’ shoes compared to Marc’s?” etc. to prompt comparisons involving ratios. If that fails, I’m more comfortable connecting ratios to the approaches taken by students themselves than I am forcing it.

BTW, “buy one, get one 50% off” vs. “buy two, get one free” would make a decent “Would you rather?” math task.

h/t Cam Joyce, Carley Brockway

## 6 Replies to “Fair Share Pair”

1. Thanks for sharing this rich task, and for the link to Peter Lillijedahl’s site. What a treasure trove! I had not come across it before.

2. I was with you, completely nodding along, until I got to your comment: “in spite of this, I think this lesson was a success.” What?! This lesson was awesome, no caveats needed. I needed to re-read a couple times to see why you weren’t satisfied.

Fairness is very interesting, it is deep and difficult, but extremely engaging for kids, especially early elementary. I know this is anecdotal, but my 3 at home raise an issue about fairness every single day. Ugh, every single day…

I was ecstatic when I found Peter Liljedahls activities and have done several of them at home, though none in school yet. As you found, they always lead to discussion of many different ways to divide fairly. Sometimes there is also a more engineering-oriented discussion of practically how to divide when we are dividing something that is hard to cut accurately.

If you wanted to take this conversation farther, you could encourage the kids to talk about how the different splits compared, what feels more or less fair (and for whom) and why they feel that way? Note: saying that a split is fair because Chris pays more than Jeff who pays more than Marc doesn’t cut it because all the proposed splits had that feature.

Getting into the game theory of it is also interesting, for example: given an algorithm for splitting the bill, would any of the kids want to change their shoe selection?

Also, have any of these kids been in this type of situation before? I don’t know how old Math 9 kids are, but I would guess they have and could share some comments about what happened or how their behavior changed.

1. Hi Joshua,

You’re right. That was awkward. I edited the post to read “in spite of not reaching my learning goal” rather than “in spite of this.” Can a lesson be considered a success if it misses the learning goal? Probably.

I hear you about fairness at home. Cookies, right? This was a fun conversation we had in my home about sharing: https://reflectionsinthewhy.wordpress.com/2013/10/03/tmwyk-aero-bubble-bar/

The idea of changing shoe selection given a way to share is intriguing. I was thinking about something similar when comparing buy one, get one half off with buy two, get one free. Say I buy two pairs at \$100 each. I pay \$50 for the second pair, \$150 in all. I save 25%. Say I buy three pairs at \$100 each. The third is free. The total is \$200 and I save 33 1/3%. Better, right? But say the third pair is \$40…

I don’t know if these kids (age 14) have experienced this situation. Shoulda asked.

Chris