Wednesday, October 16, 2013

Grade 5 Unit 5 Patterns and Relationships

In preparation for Quarter 2, Grade 5 teachers are beginning to plan instruction for Unit 5, Patterns and Relationships. Some of the key understandings for the units include students using lists, tables, and diagrams to find relationships between sets of data, writing rules that describe the relationships as they relate to input and output, extending patterns to solve problems, and describing the processes used to find the solutions.

The performance indication used to evaluate student mastery is as follows:
 
Create and extend a table of related numbers (e.g., sides on one pentagon, wheels on one bus, etc.). Write a rule with one unknown to represent the related number pairs in the table. Use the rule to find the output value when given the input value and find the input value when given the output value [e.g., (65 buses, ? wheels), (? pentagons, 100 sides), etc.]. Write a verbal description of the rule and how the rule works to predict other related number pairs.
 
Sample Performance Indicator:
  • Samuel was creating a pentagon design using toothpicks as shown in the figure below.

He added more toothpicks to the figure as shown below.

He continues this sequence by adding toothpicks to the figure so that each pentagon added shares one side with an existing pentagon to form a line of pentagons. Create a table to show the relationship between the number of pentagons and the number of toothpicks up to 5 pentagons. Record a written description of the pattern in the output column (the number of toothpicks used) and why this pattern continues. Use the pattern to predict the number of toothpicks Samuel will use to create a figure with 8 pentagons.
 
Source: 2013 TCMPC from http://teksresourcesystem.net/
 
The standards for this unit include: 5.5A5.65.14A5.14C5.15A5.15B5.16B
and ELPS
ELPS.c.1CELPS.c.4IELPS.c.5FELPS.c.5G .
 
The sample problem provided proves to be very difficult for students when it comes to finding the rule. The students can solve the problem pretty easily by creating the formations using the toothpicks and/or sketching their results and then recording the information in the table. They almost immediately recognize that the number of toothpicks increase by 4 each time a pentagon is added. They are able to extend the information in the table to find the number of toothpicks required to create 8 pentagons. But, they struggle to "see" the rule which defines the relationship between the number of pentagons and the number of toothpicks.
 
The rule for the data in this particular problem is not as clear cut as they were in Grades 3 and 4. The best way to prepare the students to "see" the pattern is to create experiences in which they create the models described in the problems, sketch the diagrams, and look for repeated groups within the diagrams.
 
Look at the work shown below:
 
 
 
Using different colored toothpicks helps to highlight how the toothpicks are added in groups of 4. Each time a pentagon is added, the students are actually only adding 4 new toothpicks since it shares one toothpick with the first pentagon. Only that first pentagon was made with 5 toothpicks which we can redefine as a group of 4 toothpicks plus 1 toothpick that will be shared with the second pentagon. Each successive pentagon after that shares one of the four added toothpicks, so there is only 1 extra toothpick from the first pentagon. The rule for the set of related data is: 4x + 1, or the number of toothpicks times 4 plus 1 equals the number of toothpicks.
 
In order to prepare students to be successful on this task independently, students should be given opportunities to solve similar problems using different shapes using the colored toothpicks. The students should also be expected to seek and explain the resulting patterns that they see. Participation in a lot of math talk is required to help the students "see" the emerging patterns.
 

Tuesday, July 12, 2011

Tapping into Leadership Potential

Work in schools for a couple of decades and you cannot help but see the correlation between effective schools and teacher leadership. A study from 2009 shows that administrators who seek out and develop this leadership "in very deliberate ways to ensure high levels of student learning" lead successful schools. The article from Education Week TEACHER, Potential Leaders Are All Around Us, discusses the findings from this study and points out that most successful teachers do NOT seek out leadership roles until an invitation is made. The implications of this finding is that much of the talent goes untapped. Something to think about....

Monday, July 11, 2011

Collaborative Planning in Elementary Schools

Teachers and administrators at Forest Lake Elementary not only plan lessons together, but they are building a strong professional support network.

Reasons for Writing in the Math and Science Classroom

I found this post from Dr. Judy Willis, Summer PD: The Brain-Based Benefits of Writing for Math and Science Learning pretty enlightening. Dr. Willis lays out the benefits of student writing from a nuerological standpoint. Writing helps the brain to develop "executive functions" such as "judgment, critical analysis, induction, deduction, delay of immediate gratification for long-term goals, recognition of relationships (symbolism, conceptualization), prioritizing, risk assessment, organization, [and] creative problem solving." Writing about math and science can also help students "input" the information into memory in such a way that it is easier to retrieve later by helping the student categorize and organize the content. Using reflection prompts can also aid in the retrieval process by adding a personal connection. The blog also explains how anxiety over answering questions in class can physically block the content from reaching long term memory. Willis offeres the idea of using written responses, using "code names" in class, to help ease the anxiety and allow for more active participation.

I know that research shows that the use of interactive notebooks really help students. This article just reaffirms this to me. The problem that I have consistently run into, however, is the practical implementation of the notebooks in the classroom. Teachers, whose opinion I highly value, have all told me time and time again that the use of the notebooks filter out over time. And, they are honest enough to share that it is simply because they do not have the kind of time necessary to keep up with them. If the teachers' responses to the writing are not timely, the students begin to lose interest and the value is lost. I am going to have to investigate some of the new google applications. Perhaps student chat groups reacting to responses to math and science content or concepts may help with this.... something else to explore and consult with others about!

Friday, July 8, 2011

Wordle

I am loving this application at http://www.wordle.net/. I am trying to come up with some ideas for its use in elementary math classes. I have thought about topics such as problem solving, geometry, math anxiety, etc. Any other ideas?

This is an example created from the words from my first post in this blog. Very fun to play with. The kids will love it!

Wednesday, July 6, 2011

How Important is Intuition in Problem Solving?

The Complete Method of Problem Solving, at http://www.problemsolving.net/ps7-1of4-intuition.html, lists intuition one of "major problem solving strategies." The guide discusses what intuition is, what it does for our problem solving process, how to develop better problem solving intuition, and what the "peril[s]" may be when intuition without justification is used to solve problems. Interesting read that gives me more license to continue surfing the web to help my intuition development! :)