Day 2 of #SummerMathCamp
To feed our math brains at 8 am on a Tuesday morning in the summer, we showed this photo of some watermelons in the hopes of generating some conversation.
How many watermelons are there? How do you know?
This was just going to be 10 to 15 minutes of a notice and wonder conversation. Yea. We were wrong. Fifty minutes later we were still chatting about watermelons. Who knew a pile of cut up watermelons could keep 45 educators engrossed. Really, what is there to talk about—it’s just a bunch of watermelons, people.

Image from: weknowmemes.com
So, here’s what we chatted about.
We predicted that the most common answer would be to cut up two of the one-half sized pieces to make the missing one-fourth pieces, slide those around to make 4 whole watermelons. Then, add the other two halves to make another whole watermelon. So, the sum of 4 whole watermelons and the other whole make 5 watermelons. We thought that some version of this idea would be a good start to the day.
And that’s exactly what happened. One of the campers shared her version and just about every person in the room said, “Yup, I thought about it that way, too.”
And then Shannon said, “I saw it another way. I saw 4 groups of 3/4 of a watermelon and then I added the 4 one-half sized pieces. So, 3 whole watermelons and two more means that there are 5 watermelons in the picture.” The conversation then moved to connecting Shannon’s use of the algorithm to the photo and then adding in the notation.
Since many of the campers were happy to think about the quantity of watermelons using the algorithm in Shannon’s explanation, we thought we would pause here and push on the idea of equivalent representations. [We much preferred thinking of the watermelons as 3 groups of 1—written as 3 x 4/4.]
This provoked lots of conversation on how come we can do this.
- How does the image show (4 x 3/4) = (3 x 4/4)?
- How does the picture show Shannon’s equation: (4 x 3/4) + (4 x 1/2) = 5?
The third way that surfaced was to simply add all the pieces of the watermelons visible in the photo. We recorded it like this: ¾ + ½ + ¾ + ½ +¾ + ½ + ¾ + ½
Here are some of our takeaways:
- If it’s important to the kids it MUST be important to us
We need to listen to what our kids are saying and not be on the lookout for the answer listed in the TE or for the student response that matches our preferred strategy.
- Questions and their power
Your questions need to offer ALL kids a place in the conversation. So, in this situation we could have asked a couple of questions.
- How many watermelons are there?
- How many whole watermelons are there?
Which question lets the kids who say 8 be in the conversation?
- Dots on ten frames and Photos of watermelons, almonds, and tangram puzzles
Math is an active subject—it’s interesting, irritating, perplexing, confusing and invigorating. It makes your head hurt when you are in the midst of the struggle and then you get to embrace the high fives when that last piece falls into place and the connection appears as a result of your hard work.
Until next time….
Kristen & Judy
Comments
4 To 8 – You Can Cut The Ones In The Center Out Of The Bottom Of The 4 Corners And It Wouldn’t Show You Did… You Can’t Cut Them From Less Than 4 And It Could Be As Many As 6 Or 8 If All Parts Are From Different Melons
(If There Is No Use Of Mirrors)
http://www.facebook.com/photo.php?fbid=2472601596085698