Doodling the C’s – Getting Started

This is so awesome!

Experiments in Learning by Doing

How do we practice Information Age skills?  Which of the C’s do we actively engage with, share in the-struggle-to-learn with others, and intentionally insert into daily practice?

Creativity and innovationCommunicationCritical thinking and problem solvingCollaboration, …

At Trinity, a small cohort of faculty meet at either 7:15 a.m. or 3:30 p.m. to learn more about sketch noting.  We call it #doodling #TedTalkTuesday (or #TEDTalkThursday).  We meet, watch a TED talk, and doodle.  We share our work and offer each other feedback.

But, how do we differentiate for faculty unavailable at these times? In other words, how can we leverage technology to learn and share together?

Challenged by members of the Trinity Faculty to exercise creativity and critical problem solving,  I have started developing the following prototype to attempt to offer a solution to this identified need.

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At the end of these eight 75-minute sessions, participants should…

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How Do I Change Math Class Tomorrow?

mscastillosmath

As Dan Meyer put it, “math class needs a makeover.”  It breaks my heart to hear students say things like, “I’m not good at math” or “I hate math!”

In my opinion, one of the first things that needs to change is the focus on correct answers and the need for speed.  This leads students to believe that the only way to be good at math is to be right (quickly).  The other practice that needs to be eliminated is the language we use as teachers such as “that’s right” or “you’re so smart.”  

You’re So Smart

You’re so smart is one of the most damaging things you can say to a child.  What is smart?  What do we value and what are we showing them that we value?  Being smart needs to mean learning as a means in itself.  Or rather, the journey of learning.  This is not…

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Rethinking Geometry Instruction: How to Think Holistically About Standards

Each year I continue to see teachers frustrated when they get their middle of year testing results back for their class because Geometry is often one of the lowest strands.  Over the years I have puzzled about why this is but have realized that most textbooks (ours included) waits to teach Geometry until the last couple of units.  So many teachers who rely heavily on the textbook do not teach Geometry until right before the state test.  Often this means students get told about geometry instead of getting the opportunity to experience it through hands on application and discussion.

So why do we wait until the last minute to teach geometry?

I would like to propose that we teach geometry throughout the year by incorporating geometric ideas into instruction of other standards.  I would argue that too often we teach skills in isolation and don’t connect the mathematical ideas.

In Kindergarten, instead of giving students random objects, have them count shapes such as triangles, squares, rectangles, circles and as they develop the idea of cardinality have them confirm their count by labeling the objects.  For instance, if they count nine triangles, they would say “there are 9 triangles.”

Provide multiple types of triangles so that they can develop the idea that triangles come in all sizes and orientations and that counting does not have to be an object of a particular size or congruency.

Put out squares and ask students to get 18 squares or lay out circles and say how many circles are there?
Give students a geoboard and ask them to make a shape with 6 sides.  This is a great conversation starter and gives another context for counting while offering the opportunity to discuss shape names and properties.
When asking students to compare objects, ask them to compare a group of circles and a group of squares and ask which one has more?
Or provide a low floor, high ceiling task like this:
I have some shapes.  The total number of sides of all of my shapes is 21.  What shapes do I have?
Build arrays of multiple shapes and then ask how many sides are in the array? How many corners (or vertices).  Or build an array out of 3-D objects and ask how many faces are in the array.
Use the geometric subitizing cards by Graham Fletcher to have number talks about attributes.

Have students engage in conversation to solidify understanding and practice vocabulary with WODB sets like this one:
Look at your grade level standards for geometry.  Are there opportunities to teach geometric concepts through operations and algebraic reasoning?  Data?  Fractions?
Leave comments here or on twitter to share your ideas!