This is a post that contains links, files, and a general description for each of the activities I hope we get to.
This is a post that contains links, files, and a general description for each of the activities I hope we get to.
Being May the Fourth, my Twitter and Facebook are filled with Star Wars – which as a fan, I enjoy! Then I saw a tweet with #tlap (Teach Like a Pirate) and thought, what about #tlaj: Teach Like a Jedi?
It didn’t take me long to see, wow, I kinda used to teach like that, and I’m glad I’m not the Jedi Master anymore. Here are some quick thoughts on why I say “Teach Like a Jedi Do Not”:
Some of these are more about being a Jedi or the beliefs of Jedi and not necessarily about how they teach, but I’m just having a bit of fun with it anyways. Feel free to share your own ideas in the comments. There may also be worthwhile things to consider that are worth teaching like a Jedi, for example to trust your feelings/intuition.
Oh, and May the Fourth be with you!
I’m normally a prolific note-taker [Note: I’ll be posting about Evernote soon!], but I decided to take a different approach to my NCTM participation this year, and I’m glad I did!
Using Twitter proved to provide multiple benefits. To name a few:
So here are the tweets (mine and a selection of others via #NCTMDenver) for the sessions I attended (chronological order). I’ve occasionally added a wee bit of commentary. Admittedly, I should have taken a few pics along the way, and I should have tweeted more. Although nothing can replace being there, and these are but a few tidbits, I hope this offers something worthwhile. [Note: click on the images to view larger, more clearer, size].
2-The Power of Just One Teacher – Mayim Bialik (@missmayim)
Mayim Bialik, the Emmy-nominated actress on The Big Bang Theory and real-life neuroscientist, is on a mission to help educators and parents inspire students to pursue STEM education and careers. Bialik will share her nontraditional journey from child actress to neuroscientist to playing a scientist on TV and working with Texas Instruments.
Oops, slow start. I actually didn’t tweet any thoughts on this one. Overall, I did enjoy the session. Mayim was very genuine and engaging, especially during the Q&A. You can view her session here. And here’s a sampling of others’ tweets:
Thanks to TI, I did get to attend a private reception with Mayim after:
And here’s the pic:
77-I See It: The Power of Visualization – yours truly
What does it mean to “see” the math? Taking concepts that are typically taught only symbolically, we’ll explore tasks that can engage students to reason and to make sense of mathematical concepts through visual representations. The nature of these tasks will include concrete patterning, dynamic graphing, geometric representation, and more.
I’ll post about my session separately. In the meantime, here’s my handout.
184-Keeping It Real: Teaching Math through Real-World Topics – Karim Kai Ani (@karimkai and @Mathalicious)
How long does burning off a Big Mac take? In basketball, should you ever foul at the buzzer? Explore real-world lessons that teachers can immediately use to address the Common Core State Standards in a fresh, new way. Learn to foster a rigorous understanding of math while challenging students to think about the world more critically.
246-Technology in Support of Proof – Tom Dick
Technology can provide a “conjecture generator,” where we use its power to find mathematical patterns that might lead to the formulation of a conjecture. Proving such a conjecture is often viewed outside the use of technology. We will examine several examples where technology offers powerful hints to mathematical structure that aid in proof.
Caveat: the number of tweets is not necessarily a measure of the quality of a session. For this one I just watched and enjoyed – I’ve long been a fan of Tom’s purposeful and meaningful use of technology. The highlight was using a TI-Nspire spreadsheet to explore the limit of the ratio of consecutive terms of the Fibonacci sequence (no matter what the first two terms are, even if they’re complex!).
NCTM Trivia / Happy Hour
Come get your beer & trivia on with @desmos, with special guests @mathalicious, and emcee @ddmeyer
Not in the program, but what a great time! We had the whole bar to ourselves and it was packed. Dan did a fabulous job emceeing. Best category of trivia: functions expressed through sound! (courtesy of Desmos – an unreleased but very cool feature)
Team π-fection, by the way, was myself, Dona McSpadden, Chris Becker (@ChrisBecker67), and Benjamin Graber (@MathExplorers).
354-Essential Mindsets for Tilling the Soil for the Common Core – Steven Leinwand (@steve_leinwand)
With the game-changing nature of the Common Core State Standards, leadership from all of us is a nonnegotiable element to shepherd and support their implementation. This session will answer the questions, “How should we be positioning ourselves?” and “What must we be doing?” so that we do not squander this once-in-a-lifetime opportunity.
POWERFUL session, and Twitter reflected this. So, here’s a long but not exhaustive list:
411-Keeping Our Eyes on the Prize – Philip Uri Treisman
NCTM has committed itself to equity, with many of us working toward a new generation of mathematics-savvy citizens and STEM professionals representing our diverse population. We need to take stock of the record and take action from the state house to the classroom, so that our vision becomes reality and our hopes for our students are realized.
I wasn’t at this session, but seeing the Twitter feed made me wish that I had been. You can view his session here.
483 – Take Time to Question the Questions – Mark Howell
With the help of technology, math teachers have a rich array of engaging exploration environments to lay before students. It takes thoughtful reflection, though, to construct meaningful and appropriate questions. We will see activities from algebra, geometry, and calculus and explore what makes a question good.
534 – Creating Opportunities for Students to Engage in Reasoning and Proof – Margaret (Peg) Smith
Although there is a growing consensus that the grades 7–12 curriculum needs greater emphasis on reasoning and proof, research shows that most textbooks offer limited opportunities to engage in these practices. We will focus on how to modify tasks to give students more opportunities to engage in reasoning and proving.
560 – Powerful Online Tools Promote Powerful Mathematics – Eli Luberoff (@desmos) and Patrick Vennebush
The free calculator available from Desmos (www.desmos.com) allows for exceptional graphing. Combine this tool with the resources at Illuminations (http://illuminations.nctm.org) to create powerful lessons. Learn how to combine these two resources to craft exceptional mathematical experiences for your students. BYOD, and get ready to get funky.
634 – They’ll Need It for Calculus – Christopher Danielson (@Trianglemancsd)
What ideas do middle school students need for calculus? Maybe not what you think. They need an awareness of change, approximation, and accumulation. We will work middle school tasks that use these ideas, and we will consider how these ideas build into the major ideas of calculus.
An early morning start, but a great crowd showed up. Go here to see Christopher’s blog post about his session.
684 – Tools and Technology for Modern Math Teaching – Dan Meyer (@ddmeyer)
A lot of new tools and technology exist to help our students learn more meaningful mathematics. The question you may have now is, “Which tools deserve our limited time and resources?” I will offer a framework to guide you toward useful tools and more modern math teaching.
Always a must-see, always inspiring, always powerful, always witty, always… you get the idea.
724 – Viral Math Videos: A Hart-to-Hart Conversation – Vi Hart (@vihartvihart) and George Hart
Father and daughter, George and Vi Hart make videos in their own styles with the common goal of showing real, awesome, beautiful math. Vi learned some math from George, and George learned about videos from Vi, and you can learn how they create content that educates, inspires, and makes people want to share.
And that concludes my NCTM 2013 experience, and I’d have to say it was the best NCTM conference I’ve been to (I think this was my 6th). To the many speakers whose sessions I wanted to go to but could not make it to, I hope to see you next year – #NCTMNewOrleans!
Note: I owe a lot of gratitude to my great friend, Dona McSpadden, who lent me her mifi throughout the conference. The wifi seemed to disappear strangely when going into a meeting room, but I was able to be connected always. It came in handy for a couple of presenters as well!
I love the quadratic formula – what self-respecting math geek wouldn’t? I would always wear my best suit on the day of the quadratic formula lesson. Somehow, my students didn’t seem to share in the joy the same way I did. Adding a “Pop Goes the Weasel” song raised the joy-level a wee bit, but my goal of mathematical joy was nowhere to be seen.
One of the lessons I shared at my “Different Approaches to Familiar Topics” workshop aims to change that – if not more joyous, at least let’s make solving quadratic equations using a formula more meaningful.
Here’s the student handout (QuadraticEquations). It begins with activating prior knowledge – solving a quadratic equation by graphing, and algebraically (non-formula). More importantly, there is a connection between the graphical and algebraic solutions.
Here’s the equation, with an algebraic solution:
Wait a minute, why the box around the penultimate step, instead of the answer? Because the answer doesn’t tell the whole story, the box step says so much more. Consider the graphical solution:
See the connection? Don’t tell students the connection – they will find it (hence the question prompt in the handout). Yes, the zeros are symmetric about the axis of symmetry – obvious to us math geeks, but why should we have all the fun?
On to page 2. It’s time to generalize. Once again, don’t do this for the students – they can do it themselves; and then they can do the sense-making.
Alrighty then, a new formula, but one that makes sense. A prompt for students, and for you: Explain and illustrate the meaning of this formula in terms of the graph of a quadratic function.
Let’s not underestimate the power of connections. The formula connects symbolic meaning to graphical meaning. Sure, there’s some meaning with the traditional formula, but how many make sense of the axis of symmetry being , let alone the meaning of ?
Consider the –k/a. How much more meaningful is this than b² – 4ac? Real solutions require that k and a be opposite – a fact that has obvious graphical meaning, as does the situation that makes for equal solutions.
The third page of the handout just gives three equations to solve. Two of them are not in vertex form. That doesn’t disqualify them from this formula. Converting these to vertex form in a meaningful way – that’s for a future blog post. It’s also cause to think about what kinds of equations we ask students to solve. In contextual problems, modeling often makes much more sense using vertex form – perhaps this form should be predominant for quadratic equations.
Pop Goes the Weasel – NOT
We don’t need a song for this formula. I think it just makes sense.
Entering the Land of Make Believe
This isn’t part of the handout, but an idea for an extension. That negative sign inside the radical is begging to be noticed. Consider the equation (x – 3)² + 4 = 0. Using the formula we get x = 3 ± 2i. The symmetry is there, of course, but what about graphical meaning? Let’s give that negative sign some i-dentification.
Graphically, what is the meaning of this radicand compared to the previous? It’s opposite – graphically we can represent this by making a opposite or k opposite. And presto! The complex roots now have graphical meaning:
Oh, there’s also a way to get graphical meaning to cubic functions that have complex roots. That too may be the subject of a future post, perhaps when I’m feeling super geeky. In the meantime, why not try it yourself?
One More Thing
Another piece that isn’t on the handout – actually I just thought of it. Ever try to come up with quadratic functions or equations that have rational roots? Playing around with different values for a, b, and c to make b² – 4ac a perfect square isn’t fun. Yes, there are other ways (factored form, etc.), but just note how easy it is to make –k/a a perfect square. Indeed we can quite directly consider a whole family of quadratic functions that have rational roots. Let’s make another connection – a visual representation. Consider the function y = (x + 3)² – 4, which has integral roots given -k/a = 4. Modeling this with algebra tiles:
Coincidence? No! Connection? Yes! A quadratic function with rational roots is always factorable. Think of this in reverse too – more connections to be made. In particular, think of how the factors relate to the value of h.
This would also be cool to visualize using colour tiles, a la this blog from Chris Hunter.
It was an honour and a privilege to present today to such a great group of passionate mathematics teachers at the Northwest Mathematics Conference in Victoria, BC. With apologies again for those who did not get a handout, you can click on the image below to download a pdf of it.
I’ll make a point of posting a blog about at least two of these activities in the near future.
My first blog is coming, but in the meantime you can check out my About page.