Month: October 2009

Parents Night

Last Thursday was Parent Night. Also fondly known as The Longest Day You Experience In The Entire Year. Yes, indeed, on this day I woke up at 6:30am and taught until 3:10pm, followed by an hour of tutoring and a little bit of working, followed by running out to grab an early dinner in the ‘hood with some colleagues, followed by Parent Night! Which concluded, for me anyway, at 10pm-ish. Note that there is no time to lesson plan for the next day. Which is why I worked backwards and planned my classes so each would be having tests on Friday. Genius?

Check.

For those without Parent Night, it involves, in short, parents arriving at 6:30pm and attemping to follow their child’s school schedule — spending 10 minutes in each class (and 5 minutes getting lost between classes). I think it’s a very good thing we do. As one of my colleagues who retired a couple years ago said: “You know, it helps the parents know there isn’t a crazy person watching their kid for 50 minutes each day.”

Check.

My first year, I was told the two tricks for the night:

1.) Do not like parents corner you to talk about their individual child. If it does happen, either say “I’d love to talk but I don’t have my gradebook in front of me. Can we set up a time to talk by phone or in person later?” or “I generally don’t talk about individual students tonight, but I’d be more than happy to sit down and talk with you sometime soon.”

2.) When you’re “teaching” your class, talk for the entire 10 minutes. If you go under, and parents start asking questions, the night can turn very quickly if you have one upset parent.

My third trick to surviving the night without going crazy:

3.) Accept that parents are going to be on their PDAs while you’re talking. It’s annoying, but not worth getting riled up about.

Of course, although I tried my hardest, I got drawn into 4 conversations about individual students. You know how parents are, so sneaky. They lull you into a sense of calmness, and then THWACK: “Mr. Shah, we really liked your presentation. I really liked calculus when I took it in college. Stu is really excited about your class. How is Stu doing? THWACK!”

If you wonder what I spend the 10 minutes doing in each class, I give a SmartBoard presentation. Of course, my presentation is 15 minutes if I’m talking fast, so I basically edit to 10 minutes based on the cues my parents give me (if they’re stoic, I skip over the jokes; if they look interested in the structure and content of the class, I speak more in depth about that).

My calculus presentation is below.

Of course, this year, I came home sick. I barely made it through Friday. And I slept all of Saturday and Sunday. Yes, even though I know germs get you sick and not Parents Nights, I blame you, Parents Night, I blame you.

sin(1/x)

In my most recent calculus classes, I wanted to show my kids their first “not nice” functions. After being introduced to how to find limits graphically (fancy way of saying: looking at the graph of a function) and numerically (fancy way of saying: using the graphing calculator’s TABLE function to guesstimate limits), I wanted to have them think about what they learned.

I had time to show one class that these methods aren’t foolproof — that the calculator can lie to you, and make you think a limit is 3 when it is in fact 3.004, or that it can’t graph things when numbers get too large or too small. So they have to be careful. And that we will be learning algebraic methods to do limits. But for now, they need to use their brains and wits.

So I divided them into groups of 2 and 3 and had them use whatever methods they wanted to find:

$\lim_{x \to 0} \sin(\frac{1}{x})$

I made them each draw a sketch of the function, write down an appropriate table of values, make observations about the function, and then decide on an answer. (In one class, I had each group turn in their findings, and then I photocopied them and distributed them and had the class talk collectively about the results the next day. In the other class, we didn’t have time for this, and we just met up together as a group to talk.)

FYI, the graph is here.

It was great. Students were debating whether the craziness was a function of the calculator lying or if that actually was what the function looked like. They wondered if the limit was 0 or if it was “does not exist.” They noticed that the function starts to oscillate more and more rapidly as $x$ approaches 0. They noticed that it bounced between -1 and 1. It’s not an easy question to solve with this information.

When we came back as a group, we talked about their observations and conclusions, and documented them on the board — so everyone had the same notes. Then I said: “so… one of you said that the function is crossing the $x$ axis more and more as $x$ is getting closer and closer to 0. Can we be more exact? Where does the function cross the $x$ axis?”

Of course my students didn’t know exactly what to do. We got to the point where we knew we had to solve:

$\sin(\frac{1}{x})=0$

But then they were stuck. So I guided them through it.

I asked: “When is $\sin(\square)=0$

We generated: $\square=...,-4\pi,-3\pi,-2\pi,-1\pi,0,1\pi,2\pi,3\pi,4\pi,...$

We then said: $\frac{1}{x}=...,-4\pi,-3\pi,-2\pi,-1\pi,0,1\pi,2\pi,3\pi,4\pi,...$

We went through solving one of the equations for $x$ and saw that we needed the reciprocals…

We concluded: $x=...,\frac{-1}{4\pi},\frac{-1}{3\pi},\frac{-1}{2\pi},\frac{-1}{1\pi},\frac{1}{\pi},\frac{1}{2\pi},\frac{1}{3\pi},\frac{1}{4\pi},...$

I then asked: So what? Why did we do this? Don’t lose the forest for the trees…

Finally, we converted those numbers to decimal approximations

$x \approx \pm 0.318,\pm 0.159,\pm 0.106, \pm 0.080, \pm 0.064, \pm 0.053, \pm 0.045, \pm 0.040, ...$

and saw that the zeros were getting more and more frequent as we approached 0. No matter how close we came to zero, we were still going to be bobbing up and down on the function. And crucially, we’ll be bobbing up and down between $-1$ to $1$ .

We then talked about what a limit means again… what the $y$ value of a function is approaching as the $x$ value gets closer and closer to a number. Using that informal definition, I asked them if the $y$ value of the function was approaching some number as $x$ was approaching 0.

At this point, most of my kids had that “a hah” moment.

I am definitely doing this again next year, but perhaps more formalized. I might generate a list of good conceptual questions to walk them through this more systematically. One such question: “How many zeros are there in the interval (.5,1)? How about (.1,1)? How about (.01,1)? How about (.001,.1)? How about (0.0001,1)? And finally, how about (0,1)?” Another such question: “How do we know the function will bounce between $-1$ and $1$ ?”

Also, maybe next year, I’ll couple it with an analysis of the function:

$\lim_{x \to 0} \sin(x)\cos(\frac{1}{x})$

The function behaves similarly (crosses the $x$ axis more and more rapidly as $x$ approaches 0), but the limit in this case is 0. You can see it in the graph easiest.

So if anyone out there is looking for something to spice limits up, you might want to really go in depth into these functions. They are often used as exemplars, but rarely investigated.

Consultants… really?

Disclaimer: This post is snarky, a little exaggerated, and in no way is meant to be anything more than me just hamming our meeting up.

We like having people talk to you. So says my school. Which is why they bring in consultants. And honestly, although it may sound like kvetching, well, it is. But it also has a larger point.

We have consultants for curriculum mapping, for drug and alcohol training, and just yesterday, for creating an “anti-bias” curriculum. I want to talk about yesterday.

My school is amazing in many ways, and one of the ways it excels is with its diversity work. Our diversity coordinator (yes, we have a full time person with that title) has been pushing for us to move to the last frontier: take what we’ve already done so well at and start applying it to the curriculum.

I can definitely get behind that.

So after school we heard a consultant tell us how we can do that. And throughout her whole talk, I did what I try never to do with the speaker in the room. I rolled my eyes. A lot. I might have been having eye seizures. Yes, it was that bad. Maybe worse than the consultant who told us to “imagine we were on a plane… but the plane wasn’t built… and we were building it while it was flying…” In that instance, we were getting an analogy for, well, maybe how to write terrible analogies. Who really knows? All anyone remembers from that consultant is the bad analogy, not what it was for. But that was then. Back to my eye rolling speaker.

So this speaker comes to us, in my opinion pretty unprepared [1] and with bad powerpoint skills, repeats “that’s why they pay me the big bucks,” and spews off either commonsense as Great Knowledge Being Imparted or pure tripe.

I know you’re just salivating now for an example of pure tripe. And it’s juicy. Her math example. How to make math anti-bias. (And, I should preface, that in the beginning of her talk, she mentioned the questions we may be having, like how to make polynomials anti-bias, and then later when asked what her answer is, she responded “I don’t even know what a polynomial is.”) Here it is:

Passive curriculum: “There are 200 miles between point A and point B. Driving at 15 miles per hour, how long will it take to get from point A to point B?”

Multicultural curriculum: “Jose lives 20 miles from school. Driving at 25 miles per hour, how long will it take Jose to get to school?”

Anti-bias curriculum: “Jose needs to get from his home to the far side of the city. If he goes the most direct route, how long will it take him? But Jose can’t go in certain parts of the city because they are dangerous. So how long will it take him if he goes an alternative route.”

No, seriously. SERIOUSLY. SERIOUSLY! I can’t tell you how dead serious I am. It was the most unbelievable thing I’ve ever heard.

Later, when pressed on it, the consultant admitted the problem was bad and then changed it to some problem with numbers of people on a bus and the probability that someone black would get out somewhere… wait that sounds wrong… by then, my head was expelling smoke and I couldn’t really focus…. but it was something like that.

Individually I talked with her and turned the screw by really giving her the lowdown of what math in a high school is, and how statistics easily lends itself to these sorts of social justice questions, but much of what we do doesn’t. And that I don’t see why we would want it to. It felt somewhat vindicating to hear her concede and say that the math teachers couldn’t really make an anti-bias curriculum.

She was — in my opinion — playing a giant joke on us. Giving us a parody of what an anti-bias curriculum might look like. You know, to get us to rebel and talk amongst ourselves about what we really think one would look like. Right? RIGHT? Hey, if that’s the goal, it worked. I have had three conversations about anti-biased curriculum since, all initiated by the “do you believe that consultant yesterday?” If that wasn’t the super double secret plan, then I can’t believe the school just spent goodness knows how many dollars to waste my time.

I know this is a rant. And I need it to be a rant. Because even though I love my school, sometimes I wonder what they are thinking. Knowing nothing about an anti-bias curriculum, I could have given a better talk. After my second year of teaching. That’s what infuriates me.

I know a lot of people I talked to were upset with the speaker. I don’t blame the school for working on this initiative. I love that we’re a school that actively works on diversity issues. The only thing I ask from the administration is that next time we meet, they agree with us that the consultant wasn’t up to snuff. Just hearing that would make me feel the administration understands us teachers and is on our side and we are working together.

My larger point: consultants are soooo overrated.

Signing off,
Sam

[1] Example: One of the go-to examples of how to create an anti-biased curriculum was a lesson designed around “To Kill A Mockingbird.” And the speaker said she hadn’t read it in years, and had cagey phrases like, “if I remember correctly…” If this is your paragon example, shouldn’t you really have read the book and know it pretty well?

Continuous Everywhere but Differentiable Nowhere

I have no idea why I picked this blog name, but there's no turning back now

Month: October 2009

Parents Night

sin(1/x)

Consultants… really?