Tuesday, May 26, 2009

Sweet Success



About a month ago, I wrote about a student who needed to learn some of the multiplication facts. We picked ten facts she needed to learn and wrote them on flash cards. We practiced and drilled and she got better. She made 90% or nine out of the ten. Now that is a high score that would bring an A grade in any school.

But consistently the one fact that she could not remember was 7 x 6 = 42. Whenever that fact would come up, the look on her face clearly communicated to me not only that she didn’t know it, but that she knew this was the one that she didn’t know and was convinced she would never be able to remember.

So one day, I let her use some art supplies to make a poster that now hangs in my room. And sure enough, even with her back to the poster, she can remember that 6 x 7 is 42. The visual and tactile experience of creating this poster focused on what she needed to learn has brought her to 100% success.

It's All About Pizza


Even though I have started my fractions groups by using giant cookies and a recipe for mushroom sandwiches, the example I use the most when talking about fractions is pizza. I spent some time this morning cutting out large red paper circles. Some of them I cut into halves and some I cut into fourths. I will use them as visuals when I talk about pizza slices and improper fractions and mixed numbers.

Improper fractions simply tell how many pieces there are and what kind of pieces they are. They are usually not the best way to express a number, but sometimes they are necessary. So if I have nine fourths, I have nine pieces that have been cut into fourths (which means four for every whole pizza). Using my visuals, students can see that every group of four makes a whole pizza. They find that two whole pizzas can be made with one piece left over. After some practice with this concept, I help them to verbalize the analog for how to change an improper fraction to a mixed number.

Then we move on to starting with a mixed number and changing it to an improper fraction. The pizza slices come in handy once again as students can beak down the wholes to see how many parts there are. Together, we come up with the steps for doing this process without the pizza slices.

The worst part of all of this is that the kids complain that these exercises make them hungry. It has an effect on me too—“Hello, Pizza Hut? I’d like to order a large pizza to be delivered to the school!”

Wednesday, May 20, 2009

From Cookies to Mushrooms

Today I will see how much my RTI students remember about the fractions skills I went over on Monday. I made a handout with one of my favorite snack recipes (that I got from my mother-in-law). Then I ask students to answer some questions. Here it is:

If you like mushrooms, try this recipe sometime.


Hot Mushroom Sandwiches

2 4-ounce cans mushrooms
1 T onion, finely chopped
2 T mayonnaise
5 slices rye or wheat bread
grated Parmesan cheese


Drain and chop the mushrooms. Add the onions and mayonnaise and stir. Spread evenly on the bread slices. Sprinkle with Parmesan cheese. Broil until lightly browned. Serve hot. Makes 5 sandwiches.


If two people share this recipe, how many sandwiches will each one get?

Express your answer as an improper fraction:

Express you answer as a mixed number:

Write a complete sentence that best answers this question:



Because five sandwiches are being shared or divided by two people, the improper fraction is 5/2. As a mixed number, that would be 2 1/2 sandwiches.

After doing the drill and this activity, we will review reducing fractions by playing NASCO's Fraction Simplification Bingo.

Monday, May 18, 2009

Fractions With Cookies


Fractions, which are usually taught in fifth or sixth grade, are a challenge for many students. So in middle school, we find many students that have difficulty with fractions. My school's RTI (Response to Intervention) time was recently designated as a time to work on fractions with both seventh and eighth graders. So today I started with two new groups to focus on fractions. My sixth period group was with seven eighth graders and the seventh period group was with eight (very energetic) seventh grade boys.

I was keenly aware that I was starting an instructional unit with students I hadn't worked with before and that I needed some way to get their attention, yet establish some limits. I continue to look for hand-on visual models to explain mathematical concepts that I am trying to get accross.

When the seven students came into the room, I had two large cookies on the side table. (I made these chocolate chip cookies from one mix, pressing half the dough into the bottom of an eight-inch round cake pan.) Of course their attention was mine right away! I told the students the problem that we would work on later. There were two large cookies and they needed to figure out a way to share them evenly. I quoted what my mother used to say,"If you can't share them, share and share alike, then nobody gets any!" I told them we had some drills to do first, but they should be thinking about this problem.

After the drills, which then went quite smoothly, we came back to the cookie problem. Two large cookies split among seven people seemed to be quite a problem for them. The first idea was that they would share a part with me and cut each cookie into eight parts. I declined and they worried out loud about a cook that wouldn't eat her own cooking! After explaining diabetes limitations, I told them if they could come up with the fraction that each person would get, I could help them know how to cut the cookies. I gave them a hint: when I was a kid and Grandma gave us a bag of candy, we divied it out by saying "One for you, one for you..." until they were all given out. I asked them how they would have to cut the cookies so they could divy them out evenly. They knew it would have to be in sevenths. And they realized they would each get a part from both cookies. So they would be eating 2/7 of a cookie. I then got out my protractor and a piece of paper. They knew that there are 360 degrees in a circle, so we figured that 1/7 of a circle was about 51 degrees. I made a 51 degree paper wedge to use as a cutting guide. After sanitizing their hands they cut the cookies perfectly!

While they were munching on pie-shaped cookie pieces I explained that we had divided two cookies by seven people and each got to have 2/7. The line in a fraction means "divided by" in this kind of problem. I had another similar word problem printed out that I put on a clip easel.

"Camp Winnetaka has 300 campers. The chef made 90 extra-large pizzas. If the pizzas are shared equally among the campers, how much will each camper get?" By referring back to the cookie problem, students were able to see that 90 pizzas were being divided by 300 people. So each one would get 90/300. I told them that it wasn't likely that the chef would cut each of those pizzas into 300 tiny pieces and then let each camper go and get one piece from each pizza. They realized the need to reduce and we were able to spend the rest of the period working with individual white boards on reducing fractions, improper fractions and mixed numbers. (Each camper got 3/10 of a pizza.)

The seventh grade group had to split three cookies among eight people. They came up with two solutions which caused a bit of an argument until I stepped in. The first proposal was to cut each cookie into eight pieces and everyone would get three. The second solution was to cut two cookies into four pieces and give everyone one piece, then to cut the last cookie into eight pieces and give everyone one of those. It was a great time to point out that both would be the same amount.

At the end of the period, I asked them to individually write a few sentences about how they thought they were doing with the skills we had worked on today. I listed them on the board: word problems dividing food among people, reducing fractions, changing improper fractions to mixed numbers and back. The students were honest and most expressed that there was something in the class that had helped them today, especially with that type of fraction word problem. I thoroughly enjoyed teaching these classes and am looking forward to Wednesday when I see them again!

Monday, May 11, 2009

Happy Birthday to Me!!!!!!!!!!


Today is my birthday and I am staying late after school to do the best thing a teacher could be doing on her birthday! You see, I have spent the whole year teaching with little to no supplies. I have scrounged around and made my own games. I have brought things like markers and teaching resource books from home all year long. But a few weeks ago, some grant money came through and I got to place my order. And today I am unpacking all these boxes. Such richness: a stapler, pencil sharpener, and three-holed punch for my room. Dozens of math games, manipulatives, and demonstration materials. Plenty of paper, glue, pencils, markers and more. And neat little storage bins to organize it all. It's just like Christmas---actually it's like my birthday! Happy birthday to me!

Thursday, May 7, 2009

Survivor Blew It!

OK I have to admit it: I am a fan of CBS's Survivor. It is the only reality show that I watch, much to the amusement of my friends who think it is out of my character. But Tuesday(NCIS and The Mentalist) and Thursday are my regular TV nights. And tonight's episode of Survivor really blew it mathematically speaking.

The immunity challenge involved a math problem, and the first player to solve the problem won the immunity idol, and could not be voted off during tribal council. Of course, contestants had to go through an obstacle course and memorize pieces of the math problem before they could even begin to solve the problem. But Survivor blew it when they accepted a wrong answer as correct because they themselves didn't follow standard mathematical rules. The problem was this: (believe me we replayed and paused several times to get a good look at it!)

6 + 2 / 4 x 3 / 3 - 7 +6 + 5 /3 - 1 x 1

Now one player, JT, had written the letters PEMDAS in the bottom left corner of his slate. PEMDAS is the mnemonic to remember the standard order of operations which governs the order in which problems are solved. Order of operations is commonly taught in middle school grades (usually seventh). If you follow the order of operations to solve this problem, you should get 6 1/6 for an answer. But if you merely solve the problem from left to right, then the answer would be 1, which is the answer given by Stephen, who won immunity. But solving from left to right is not correct mathematical practice.

This is where I am suppressing the urge to sermonize, preach, and ask questions that are sarcastic in tone.

If you're still reading this--Thanks! I needed to vent!