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In Math Education

Algorithms: Good for machines, bad for people

This headline is a lie. It’s not that I think algorithms are bad. They’re not. Honestly, I think that’s how many of us move through our days without killing ourselves or someone else. We habitually take the medications prescribed by our doctors; we cook our eggs (and avoid salmonella); we follow the steps for safely backing our cars out of the driveway; we put on our socks before our shoes.

Even certain mathematical algorithms are very useful, like the order of operations (or PEMDAS).

But in the end, I think that dictated algorithms are not so great for people, especially people who are learning a new skill, and especially when the algorithm has little to no meaning or context.

Don’t know what an algorithm is? Check out my earlier post defining algorithms. 

People Aren’t Machines

There are many different educational philosophies that drive how we teach math. For generations, teachers worked under the assumption that young minds were tabula rasas or blank slates. Some educators took this to mean that we were empty pitchers, waiting to be filled with information.

This is how teaching algorithms got such a strong-hold on our educational system. Teachers were expected to introduce material to students, who were seen as completely ignorant of any part of the process. Through instruction, students learned step-by-step processes, with very little context.

In recent years, however, our understanding of neurology and psychology has deepened. We understand, for example, that children’s personalities are somewhat set at birth. And that their brains develop in predictable ways. We are also beginning to realize that certain types of learning and teaching promote deeper understanding.

The result is a better sense of students as individuals. Instead of a class filled with homogeneous little minds, we know now that kids (and grownups) are wildly different–in the way they digest information and approach problems. (To be fair, this is closer to John Locke’s original theory of tabula rasa, in which he states that the purpose of education is to create intellect, not memorize facts.)

In terms of a moral, there’s not much I recommend in this Pink Floyd video, but I can certainly identify with the kids’ anger at being treated like cogs in the educational system. Besides, it’s cool.

A Case for Critical Thinking

Certainly critical thinking is not completely absent in the teaching of algorithms. It’s marvelous when kids (and adults) make connections within the steps of a mathematical process. But critical thinking is much more likely, when the process is more open-ended. Give kids square tiles to help them understand quadratic equations, and they’ll likely start factoring without help. Let students play around with addition of multi-digit numbers, and they’ll start figuring out place value on their own.

You can’t beat that kind of learning.

See, when someone tells us something, our brains may or may not really engage. But when we’re already engaged in the discovery process, we’re much more likely to make big connections and remember them longer.

That’s not to say that learning algorithms is bad. But think of the way you might add two multi-digit numbers without a calculator. Instead of stacking them up and adding from right to left (remembering to carry), you might do something completely different, like add up all of the hundreds and tens and ones — and add again. In many ways, you’re still following the algorithm, but in a deconstructed way.

And in the end, who cares what process you follow–as long as you get to the correct answer and feel confident.

Teaching Algorithms is Easier, Sort Of

So if discovering processes is so much better, why does much of our educational system still teach algorithms? Well, because it’s more efficient in a lot of ways. It’s easier to stand in front of a group of kids and teach a step-by-step process. It’s harder–and noisier–to let kids work in groups, using manipulatives to answer open-ended questions. It might even take longer.

But I say that based on what we now know about kids’ personalities and brains, we’re not doing them much good with lecture-style classes. So in the long run, it’s easier to teach with discovery-based methods. Kids remember the information longer and get great neurological exercise. This allows for many more connections. At that point, the teacher is more of a coach than anything else.

In the end, we all use algorithms. But isn’t it better when we decide what steps to follow, through trial and error, a gut instinct or discovering the basic concepts underlying the process? That’s where we have a big edge over machines. After all, humans are inputting the algorithms that machines use.

Photo Credit: teclasorg via Compfight cc

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In Math for Grownups

Celebrate Good (Math) Times

If there’s one thing I’ve learned in my years of freelance writing and blogging, it’s this: I should always, always celebrate accomplishments, big and small. Truth is, 2014 was a really, really big year for Math for Grownups. So I hope you’ll indulge me in this little round up of the great things that have happened since last year at this time.

And I hope you’ll spend a few moments celebrating your own wins. (Share them in the comments section, so we can all cheer for you!)

Publication of Math for Writers

I had plans for this book since Math for Grownups published in 2011. Fear and a lot of anxiety kept me from my goal for a long time, but I finally pulled it together and got down to work. The writers I know are such smart people, and I wanted to give you all a little boost of confidence in your math abilities. As the subtitle says, with math writers can tell a better story, get published and make more money.

I’m also really proud that I self-published Math for Writers. I knew that finding a publisher would be tricky, and I wanted the autonomy of making my own decisions. It’s been a really amazing process, and I couldn’t have done it without the help of three folks: Jennifer Lawler, development editor; Sandra Hume, copy editor; and Caitlin Proctor of Design Cat Studios, who designed the cover. I highly recommend them all!

Redesign of www.mathforgrownups.com

As my reach expanded to writers and parents and teachers, I decided to put a new face on the Math for Grownups website. And with that redesign, I added more content, like quizzes, the Math Manifestoand even video. I also created a cool free gift to subscribers: a guide to overcoming math anxiety. (If you haven’t snagged yours, be sure to sign up in the bright yellow box on the right!)

Again, I owe a big debt to someone who is much smarter than I. Patrick McCarty of evolv design has been my designer for years and years. I asked for pops of color and a playful look — and that’s exactly what he gave me. Thanks, Patrick!

Named one of GO Magazine’s 100 Women We Love in 2014

You could have knocked me over with a feather when I found out about this honor! Yep, that’s me, up there with Lily Tomlin, Robin Roberts, Mary Lambert and Ellen Page. Each year, GO chooses 100 lesbians who are making waves. To be on this list means more than just personal recognition — though that’s pretty darned cool! The best part was sharing the math message to a generation of women: girls can do math! (Check out my profile in the magazine.)

Hired a Virtual Assistant

This was a huge step. I’ve been a one-girl shop since I started out on my own in 2005. But with all of my big ideas, I knew I needed to step things up. Kelly Case with Time on Hand Services has been a god-send. Since the spring, she’s hanlded all of the Math at Work Monday interviews, and in the fall, she took over the newsletter. Look for her name to show up more in 2015! I’m so glad to have her on my tiny team of two.

Began Producing Video Online

Perhaps the most fun I’ve had this year is writing and producing my own video. The Math Manifesto series has been a blast. I’ve been writing math video scripts for several years, but this was my first chance to strike out on my own. And while I cringe a little seeing my face and hearing my voice, I feel really great about this accomplishment. The point is to ratchet down the anxiety and demonstrate how simple the math can be. (And sometimes I have to ratchet down my own anxiety about being on camera!)

Coming in 2015

So the best part about reviewing the previous year is the inspiration that comes. (Try it for yourself!) I’ve got big plans for next year, and I hope you’ll join me. Here’s a taste of what may come:

  • More video! I have a great new tool that I’m excited to use. Look for Khan Academy-like learning videos from Math for Grownups.
  • An online stats course for writers. This has been in the works for a while. Stay tuned for the details!
  • In-person speaking events. I’m showing up at a few writers conferences in 2015 (including the American Society for Journalists and Authors (ASJA) in the spring), and it looks like I’ll be working with public school teachers on implementing in-depth, project-based lessons in the classroom. I can’t tell you how excited I am to be teaching again!
  • New resources — for teachers and for writers. I’m developing some special items just for these audiences, and I can’t wait to share them.
  • A new book? This one is a little scary to announce, but I do have plans for two books. Most likely, only one will get done in 2015. Which one will be be? Not sure yet. (And I’m not spilling the beans about either one!)

Of course, I hope you all will stay with me throughout the next year. Invite your friends to subscribe, too! Math for Grownups is on the verge of something really great. Don’t miss out!

Photo Credit: jeff_golden via Compfight cc

Now it’s your turn. What would you like to see here at Math for Grownups? Please share your ideas with me, in the comments section to via email: laura@mathforgrownups.com

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In Math at Work Monday

Let Me Interview You for a Math at Work Monday Post!

Since launching this website in 2011, Math at Work Monday has been an extremely popular feature.Teachers let me know that they love sharing insight from these interviews with their students. (What better way to answer the question, “When am I ever going to use this stuff?”) Other grownups have told me that the interviews help them identify when they’re using math in their everyday lives.

Over the years, I’ve interviewed a variety of different people — from an astronaut to a fish hatchery technician to a glass artist. All jobs are terrific fits — because as we all know, Everyone Does Math.

(Did you catch my Everyone Does Math video? Check it out!)

In fact, the series has been so successful, I’m launching a special printed option for teachers and homeschoolers, including unique student-directed questions. I’ll start with one set of my favorite interviews, which can be downloaded as printable worksheets for use in the classroom or at home. Stay tuned for the details, coming in two weeks!

Now I need your help! I’m looking for new people to interview in the next month. If you or someone you know is up for it, let me know. You can email me at laura@mathforgrownups.com (include their names and email addresses). If you’ve been around for a while, you know that the process is simple. My wonderful assistant, Kelly emails a list of questions — yes, everyone gets the same questions! — you respond to the questions and email them back to Kelly. That’s all. Painless.

So what kind of folks am I looking for? You name it!

  • dentist, orthodontist, dental hygienist
  • pet groomer, dog walker
  • EMT
  • chiropractor
  • divorce attorney
  • security officer, military personnel, state trooper
  • archeologist
  • chef, pastry chef, caterer, butcher
  • makeup artist
  • interior designer
  • surgical nurse
  • prosthetic engineer
  • truck driver, tow truck owner
  • actuary

But you can probably come up with even more great ideas. If you have suggestions (but don’t have someone to recommend), go ahead and post them in the comments section.

I’m so proud of the Math at Work Monday series, and I thank you for making it so popular and for making it possible. I look forward to receiving your recommendations. Remember, email me with potential interviewee’s names and email addresses at laura@mathforgrownups.com.

Photo Credit: stefanweihs via Compfight cc

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In Math for Grownups

The Inner Critic: NaNoWriMo and Math

I’m going to reveal a big secret here today — with my tummy doing summersaults and my hands sweating. Here we go: I’m participating in this year’s National Novel Writing Month. There I said it. And god help me, I hope I didn’t jinx myself.

What is this and why is it so scary? Basically, I’ve challenged myself to write 50,000 words of a book by November 30. Most folks write novels — hence the name — but I’m writing non-fiction, which makes me a rebel. We’re a fully accepted part of NaNoWriMo, and I like that.

There’s plenty of math in NaNoWriMo, not the least of which is the word count. Each day, I write approximately 1,667 words or 50,000 words divided by 30 days. Because I’m writing in Scrivner (a great word-processing program for writers), I need to calculate my total word count per day. That means subtracting what I’d written previously from what I wrote today. And because in Scrivner, I can create chapters that are separate documents, if I pick up in the middle of a chapter and then start a new one during one writing session, I’ve got some more calculations to do.

Honestly, that little bit of number crunching isn’t all that interesting to me. It’s the dreaded inner critic who has caught my attention.

Near as I can tell, NaNoWriMo is not about producing the perfect book. It’s about getting out a first draft. Most of us fans of Anne Lamott‘s Bird by Bird use a more colorful phrase: Shitty First Draft or SFD. I hate these. With a passion. And so for years, I’ve completely avoided them.

Sure my first drafts aren’t great, but I usually weave a great deal of editing into the initial writing process. I do this because my inner critic freaks me out. And so the writing process for me is generally stop-and-go. Hell, I can’t even go until I have a good paragraph or two formed in my head.

This is not necessarily a bad way to write. But I’ve never liked the fact that I’m letting some bitch of an inner voice tell me what I can and cannot write at any given time. This is why NaNoWriMo has been a freeing experience so far. I don’t have time to ponder each and every word choice or search for the perfect metaphor or google to find when, exactly, Star Wars hit the big screen. The sheer speed of this process means I can’t give my inner critic any attention at all. I’m focused on getting out an SFD (or as I learned to call it, a “discovery draft”).

Many of us have inner math critics, too.

If you don’t feel like you can manage finding percentages, you might freeze up when the restaurant check comes and you need to find the tip. If you’re worried about what cubic measurements actually mean, you might buy way too much mulch.

In other words, our inner critics might be saying, “You suck at math!”

There are entire books written for writers with advice on how to ignore, kill or somehow disable the inner critic. This voice is sometimes considered a part of every writer’s process. We don’t think we’re stupid or crazy or inept because we have one. We learn to work with that critic or make her take a break in the corner.

And that’s what we need to do with our math critics. Because just like with writing, these bossy voices prevent us from taking risks with math. They reinforce the feeling that we’re hopeless idiots, when in fact we all possess the math gene.

So if you’re a writer who is actively avoiding statistics or reviewing studies or even accurately tabulating your NaNoWriMo daily word count, turn some of those terrific tactics for squelching your inner writing critic on that voice telling you that you cannot manage everyday math. 

Meantime, I’ll keep on writing like a fiend, knowing that there’s plenty of time in the months to come to polish, rewrite, and kill my darlings.

Are you a NaNoWriMo writer this year? I would love to hear about your book or project. And if you’ve got great ideas for telling any inner critic to take a hike, please share them in the comments section!

This is also a great place to plug my book, Math for Writers. If you’re a writer who feels a little (or a lot) nervous about math this is your ticket to ease and confidence.

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In Math at Work Monday

Math at Work Monday: Andy the Design Director

You probably enjoy a good motion picture from time to time.  When watching, you probably do not think about how much math was used to design it.  Today, you will hear from Andy Nick who has been a Design Director  for ten years.  He makes a motion picture come to life.

Can you explain what you do for a living? 

I work for a full-service design firm and lead a team of video specialists. We are a small team, so we all do a lot of different jobs. I direct live action video shoots and handle post production and visual effects for short films, motion graphic projects and all sorts of other multimedia.

When do you use basic math in your job?

When I use Adobe After Effects (a motion graphics and visual effects program) to design and animate graphics using the old-skool cartesian coordinate system. I put design elements at a specific place using X and Y coordinates, and when I work in “3D”, I use Z space, too. Animation is just changing numbers around from their location on a graph to transparency, rotation on all 3 axes and scale. Sometimes, I write very simple mathematical code that calculates where something should be based on simple variables. It’s not calculus, but it does get a little tricky. It’s all very cool though.

Do you use any technology (like calculators or computers) to help with this math?

In my line of work, the computer does all of the number crunching. I just push and pull things around. Sometimes, I have to look carefully at the numbers to make sure that two graphics line up perfectly to each other. Other times I need an animation to look smooth, so I look at the graph that tells me how the numbers change over time. I see the results of math much more often than I worry about the actual number crunching going on.

How do you think math helps you do your job better?

Understanding the basics of plotting points on a graph is just the beginning of understanding 3D graphics, but it’s a foundation that you totally have to have. It’s especially cool for me to use these tools because when a video looks really spectacular, people don’t tend to think that you came at it from a mathematical point of view. Things just end up looking “right”.

How comfortable with math do you feel? 

When you’re working with graphics, all the math is “under the hood” which means that no one will ever see any numbers. When you come out with something that looks good, people don’t understand or care how long it took you to make two things line up perfectly, look realistic and move in proportion to each other in 3D space. All of the hard work that I do with numbers is gone, and people just say “that looks real”.

What kind of math did you take in high school?

Yep, I was decent at math. I was bad at memorizing formulas, but I really understood principles well, and I was especially awesome at using a graphing calculator. (Do students still use those?) If I remember right, I made it to Algebra 2 before graduating high school. I wish I had taken a trig class. I think that’s some really cool stuff, and hardcore programmers can make some crazy things happen on screen if they know some of that stuff.

Did you have to learn new skills in order to do the math you use in your job?

I never learned more math after graduating. I only learned how to apply simple math in a way that made sense to me. I move graphics around for a living. Having an understanding of what makes motion look real is definitely due to an understanding of basic math.

Anything else you want to mention?

If you’re interested in seeing some of the motion graphics I develop, check out our latest showreel at https://vimeo.com/60230695 (password: realreel)

Check out Andy’s motion graphics he developed.  This time you will be thinking more about how math is involved in what you are watching on the screen.  If you have any questions for Andy, I can send them his way.  Feel free to check out more of his work at nickad.com.

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In Math at Work Monday

Math at Work Monday: Amanda the Judicial Assistant

I hope you never have to go to court. But if you do, you’ll appreciate folks like Amanda Tuttle, who is completely dedicated to accuracy and details. As a judicial assistant, her main responsibility is to keep court records, including video and audio recordings. And that takes a little bit of basic math. 

Can you explain what you do for a living? 

I have been in this role for five years, and I keep the court records of all court proceedings by video and audio.  In addition, I run the equipment. I also hold evidence during trials, and I am responsible for transferring that evidence to the property room once the trial or case is complete. I do a lot of data entry.  This entails typing to file for public record and mailing notices as well as orders and entries to individuals and/or attorneys. 

When do you use basic math in your job?

The only basic math I use is telling time and reading the times in my video log to find a portion of a court hearing. [Editor’s Note: This is not as simple as it sounds, since time is in base 60, while we’re used to managing numbers in base 10.]

Do you use any technology (like calculators or computers) to help with this math?

The technology used for this math is on the computer.  However, I do not use it as an aide to read the time.

How do you think math helps you do your job better?

Being able to read time helps me do my job better because I can easily tell time to look for specific portions of the record. I have to do this in order to provide a copy to the judge to make a ruling or to provide a copy to the transcribing company.

How comfortable with math do you feel?

I feel comfortable with basic math. This math does not feel different to me, because I learned how to tell time in early childhood and use it everyday.

 What kind of math did you take in high school?

I took algebra and geometry in high school. I liked algebra, and I did feel like I was good at it. I actually enjoyed it. However, I did not like geometry and was not very good at it.

Are you intrigued by the role of judicial assistant?  I found it interesting to hear about what goes on behind the scenes.  Any questions for Amanda…let me know!

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In Math for Grownups

Wouldn’t It Be Great If…?

I think Marie Forleo is hilarious and smart and engaging. She’s also built a very successful entrepreneur coaching business in a very short period of time. So when she talks about goal-setting, I tend to listen.

(If you don’t know who Marie is, don’t worry about it. I didn’t know who she was until a month ago, when I was trolling around the internet for some inspiration for taking my own writing career to the next step. And if you do know Marie, don’t worry. I’m not trying to sell you on her B-school. I’m not an affiliate, and I’ve never taken the course.)

I mention Marie today one of her funny and engaging videos inspired me to write this post. In it, she shares an exercise that she uses with her team. It’s the “Wouldn’t it be great if…?” game. The idea is to fill in the blank with something achievable. “Wouldn’t it be great if I could vacation in Hawaii?” “Wouldn’t it be great if I could take August off?” “Wouldn’t it be great if I could publish a book?”

Of course, in a five-minute video, Marie only shares the dreaming part of this process. There’s no time to dig into the nuts of bolts of making those things happen. (Besides, those nuts and bolts are what she’s selling. Girl’s got to make a living.) And yes, sometimes the dream alone is a critical first step. But I got to thinking — what about the how of getting these things done?

In other words, you have a goal — now what?

You know what I’m going to say, right? You’ve got to crunch the numbers. Going from dream to reality means putting a plan into place and taking teeny-tiny steps towards getting there. It means setting and monitoring measurable goals. And that means using some basic math. Take a look.

Wouldn’t it be great if I could vacation in Hawaii?

Unless you’re Donald Trump or you actually live in the Aloha State, this trip could feel like a pipe dream. It’s expensive. It can take a long time to get there.  Heck, the wardrobe! But the math is pretty simple. Do some research, set a budget and then figure out how to stash the cash.

Why not set a monthly savings goal — which could mean earning more or saving more — and track it in a spreadsheet? Multiply that amount by the number of months until your planned trip, and you’ve got the budget for your trip. Hey, you can even get the spreadsheet to do the work!

Wouldn’t it be great if I could take August off?

This is one of my goals this year. And the math is super-dooper easy. I just take my yearly income goal (you have one of those right?) and divide by 11, instead of 12. That gives me my monthly income goal. If I can earn that amount each month, I can spend August by the pool or working on house projects. The cool part is this: spreading August’s income to the other 11 months ends up being a pretty small amount. (Well, unless your income goal is seven figures or more.)

Let’s say my annual income goal is $60,000. If I divide by 12, I need to earn $5,000 each month. But if I divide by 11, I need to earn $5,454.55 each month. Heck, I’d probably round that up to $5,500 to give myself some cushion.

Wouldn’t it be great if I could publish a book?

I had this thought many, many years ago. And because of the times, I had to wait — wait until a publisher decided to take a chance on me. It happened, but here’s the really wonderful news: you don’t have to wait. The self-publishing industry has completely changed in the last several years. Whether you want to get your family’s history down in writing or publish the next Fifty Shades of Greypublishing can be almost completely within your control.

Again, you need a budget and a goal. Decide how much you want to spend on the cover, design and marketing. Then set your sales price and goals. Within 15 minutes or so, you will know what your best publishing options are (ebook, publish on demand or publishing all of the books at once), plus how much you can expect to earn in this endeavor.

Heck, math can even help you track your book-writing progress!

Look, this is no earth-shattering news here. But how often have you not pursued a dream because you weren’t sure of the outcome? Trust me. Sometimes a little bit of math is all you need to nail down the specifics. Don’t dream it. Be it.

What are your professional and personal dreams? Share them in the comments section. And don’t forget to mention how math might be able to help you actually reach them. 

Want more information on how math can help you become a better, more successful writer? Be sure to check out my latest book, Math for WritersIt’s for sale on Amazon.com!

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In Basic Math Review

Daily Digits: My math day

Most folks readily tell me that they don’t do any math in a day. Not a stitch. So maybe they don’t sit down and solve for x or graph a quadratic equation or use the Pythagorean Theorem. But we all do math every day. And I decided to prove it.

It was last Tuesday — a pretty regular day.

April 2, 2013

6:00 a.m.: Review to-do list, estimating the time that each item would take. Count up the number of hours estimated to be sure not to exceed eight hours, while leaving time for lunch and exercise.

7:00 a.m.: Track all Weight Watchers points that I expect to use for the day, by planning what I’ll have to eat for breakfast, lunch, dinner and snacks. Allow the online program to add everything up, but pay close attention that my breakfast and lunch are around 6 points each and that I’m using less than 8 points from my weekly extra points.

10:00 a.m.: Review invoicing for first quarter. Within bookkeeping program, look at the data in a variety of ways: bar graphs, showing income for each month, and tables showing the income for each client. Compare income to goals and adjust expectations where necessary.

11:00 a.m.: Set budget for new book postcard, using designer’s estimates. Compare costs of a fewer number of cards to the costs of a much larger run. Table the decision to think about things.

12:00 a.m.: Attend weekly Weight Watchers meeting, and learn that I lost 0.4 pounds last week. Spend meeting mentally calculating how that could have happened, given the fact that I didn’t stay within my allotted daily points for a few days. Remember that balancing the equation of caloric intake and output, with variables like water retention, is way too complex for mental math. Decide to just feel fortunate and proud.

1:00 – 3:30 p.m.: Outline online lesson about linear, quadratic and exponential functions. (Yes, this is where I and the rest of the world differs! But I wanted you to know that this curriculum doesn’t appear out of thin air.)

4:00 p.m.: Meet with potential photographer for our wedding. Count backwards from the start of the wedding to estimate the time necessary and the cost of a second photographer. Mentally calculate how much over our budget we’d go if we hired this photographer. (Everything goes over budget, I’ve found.)

6:30 p.m.: Meet a friend for drinks at a local restaurant. Scan menu for lowish-calorie drink, decide that since a cosmo is the same points as a glass of wine, why not have the pink drink in the fancy glass?

7:30 p.m.: Get the check. Find the tip by taking 10% of the bill and doubling it. Then split the check evenly since we got the same drink and shared an appetizer.

11:30 p.m.: Daughter can’t sleep. Mentally add up the number of hours of sleep we can each expect to get if she would just fall asleep right now. Finally she dozes off.

And there you have it — my math day. As you can see, the math was tucked into various nooks and crannies. If I hadn’t been paying attention, I wouldn’t have even noticed it. And most of it had nothing to do with the way I learned to do math at school.

So what about you? Here’s my challenge: Just for today, jot down when you’ve used math. Then share what you learned about yourself in the comments section. Did you find that you used math more than you thought? Did you discover that you’re using a kind of math that you never, ever expected? I want to know!

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In Math Education

Sharing Awareness with Kids: Bedtime Math

One of the questions I get most often from parents is this: How can I help my kids from being anxious about math like I am? And for a math nerd like me, the answer is pretty simple. I’m unnaturally aware of the math around me. Because of my background and experience — and maybe even the way my brain is wired to see patterns in damned near everything — I can weave math into just about any situation I come across.

(Go ahead, try me. Post a situation in the comments section, and I’ll bring the math. It’s a game I used to play with my daughter, until she got really tired of losing.)

But for most parents, this level of math awareness is just not as simple to access. This is where Laura Bilodeau Overdeck comes in. With degrees in astrophysics and public policy, Overdeck is probably a little like me — finding math in everything and pointing it out to her kids at every turn. But she didn’t just keep this to herself. Nope, she launched Bedtime Math, a really simple idea designed to help parents inject a little math in their kids’ everyday lives.

Each day, she and her crackerjack team send out an email to subscribers (it’s free!) that offers three math questions — one for Wee Ones, one for Little Kids and one for Big Kids — that are centered on a little story or current event. Yesterday, the theme was tongue twisters. On Wednesday, it was hopping.

During Math Awareness Month, Overdeck and her team have introduced a series of mini, math videos. And these things are funny. The first is about ninja training — what kid (or parent) wouldn’t want to find out what happens? Check it out below:

I can’t tell you how much I love Bedtime Math. If you have little kids, give it a shot. You’ll probably learn something too — and you might even raise your awareness of the math around yourself.

Are you a Bedtime Math subscriber already? How do you use it with your kids? What do your kids think about it? Share in the comments section.

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In Math at Work Monday

Math at Work Monday: Lance the spirits distiller

I do enjoy a good whiskey. So when I had the chance to interview a real, live distiller, I jumped at it. Bonus: Lance Winters is funny as hell. Seriously. He’s also not shy about explaining how he uses math in his work — including his background in nuclear engineering, which has nothing to do with his current work. He is a master distiller at St. George Spirits in Alameda, CA, where he helps create artisanal spirits, including gin, absinthe, bourbon, single malt whiskey (my favorite), rum and liqueurs.

Can you explain what you do for a living?

I spend a lot of time wandering around looking busy in the hope that nobody asks me to do any actual work. When that gets too tiring, I play video games. When I do work, I crush and ferment fruit, mash in and ferment grain, then distill them. I prepare our distillates for bottling, then bottle them.

When do you use basic math in your job?  

I use math all the time! I’m not even kidding. It starts with figuring out the potential alcohol by volume in whatever medium we’re fermenting, then converting that to the total number of proof gallons we can produce from the amount of fruit or grain that we’ve had delivered. I then convert that to the number of cases of bottled product we can produce. That’s all pretty basic multiplication and division. We also use math when scaling up lab samples and bench trials of different whiskey blends.

Do you use any technology to help with this math?  

I like to use calculators to check my math and be totally sure about things, but like to do as much as possible in my head, on the fly. My memory’s bad enough that I need to keep the processor sharp.

How do you think math helps you do your job better?

I’m able to plan my work better and make more informed business decisions because of math.

How comfortable with math do you feel?  Does this math feel different to you?  

I’m very comfortable with math, all the time. I used to think that so much of math (especially calculus) was just something that mathematicians used to show off for one another. Now, I see the poetry as well as usefulness of integrals and derivatives. (By the way, I found Matt Damon very implausible as a math whiz in Good Will Hunting.)

What kind of math did you take in high school?  

I took pre-calculus in high school, and in spite of having learned at the feet of Harold Gene Smith, greatest math teacher ever, I felt like a total hack at math.

Did you have to learn new skills in order to do the math you use in your job? 

After high school, I spent two years going to navy schools to learn nuclear engineering. That totally messed my head up and made me the way I am today.

Any questions for Lance? Ask them in the comment section. I’ll let him know that they’re there, and perhaps between his daily wandering and video games, he’ll stop by to reply.

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In Math for Grownups

Math at Work Monday: Joe the Platform Consultant

In the IT field, there are many machines and programs that are really confusing and difficult to understand. Not only do we have to trust and depend on these machines, but also the people who service them. Joe Thompson is one of the good guys. He provides assistance to the users and companies when they need it most. From consulting to maintenance, Joe and his colleagues are there for us when our technology isn’t working quite right. (Joe is also one of my former geometry students. It’s been great to reconnect with him and see how accomplished he is now!)

Can you explain what you do for a living?

Red Hat’s consultants help customers get our products working when they have specific needs that go beyond the usual tech support.  We are essentially advanced computer system administrators on whatever our customers need us to be to get Red Hat’s products to work for them.  Common consulting gigs are setting up Red Hat Satellite to manage the customer’s servers, or doing performance tuning to make things run faster or a “health check” to verify things are running as efficiently as possible.

We just put out a marketing video about our consulting for public-sector clients, actually:

https://www.youtube.com/watch?v=eMzANG3Yhlk(We do more than just public sector and cloud, of course.)

When do you use basic math in your job?

The most common is when tuning a system to perform well, or configuring various things.  Unit conversions and base conversions are especially important.

IT has a long-running math issue actually: does “kilo” mean “1000” (a round number in base 10), or “1024” (a round number, 10000000000, in base 2)?  There are various ways people try to indicate which is intended, like using a capital K vs. a lowercase k, or using KiB vs. KB.  This matters in a lot of cases because when you get up into large data sizes, the difference between round numbers in base 10 and base 2 gets pretty big.  A 1-TB hard drive (a typical size today, maybe even a little small) is a trillion bytes — 1000 to the fourth power, not 1024 to the fourth power.  The difference is about 10% of the actual size of the drive, so knowing which base you’re dealing with is important.

Then there are units that have to be converted.  A common adjustment for better performance is tweaking how much data is held in memory at a time to be transmitted over the network, which is done by measuring the delay between two systems that have to communicate.  Then you multiply the delay (so many milliseconds) by the transmission speed (so many megabits or gigabits per second) and that gives the buffer size, which you have to set in bytes (1 byte = 8 bits) or sometimes other specified units.Sometimes software writers like to make you do math so they can write their code easier.  If a program has options that can either be on or off, sometimes a programmer will use a “bitfield” — a string of binary digits that represent all the options in a single number, which is often set in base 10.  So if you have a six-digit bitfield and want to turn off everything but options 1 and 6, you would use the number 33: 33 = 100001 in binary.

Do you use any technology (like calculators or computers) to help with this math? Why or why not?

I’ve always done a lot of arithmetic in my head and I can at least estimate a lot of the conversions without resorting to a calculator.  I’ll break out the calculator if the math is long and tedious though, like averaging a long column of numbers, or if I need a precise answer quickly on something like how many bytes are in 1.25 base-10 gigabits — I can do the billion divided by 8 and come out with 125 million bytes per base-10 gigabit, and then multiplying by 1.25 I know I’m going to be in the neighborhood of 150 million bytes, but I need the calculator to quickly get the exact answer of 156250000 bytes.  If I’m on a conference call about that kind of thing I’ll use the calculator more than otherwise.Google introduced a new feature a couple of years ago that will do basic math and unit conversions for you, so if I’m deep into things or just feeling lazy I can also just pull up a web browser and type “1.25 gigabits in bytes” in the search bar, and Google does it all for me.  But recently I noticed I was reaching for the calculator more, and arithmetic in my head was getting harder, so I’ve been making a conscious effort to do more head-math lately.

How do you think math helps you do your job better?

Without math, I couldn’t do my job at all 🙂 Even so little a thing as figuring out how long a file will take to transfer takes a good head for numbers.  As soon as you dig under the surface of the operating system, it’s math everywhere.

How comfortable with math do you feel? Does this math feel different to you ?

I’m pretty comfortable with math.  A lot of my off-time hobbies touch on computers too so it’s a lot of the same math as work even when I’m not working.

What kind of math did you take in high school? Did you like it/feel like you were good at it?

I took the standard track for an Advanced Studies diploma from grades 8-11 (Algebra I, Geometry, Algebra II, Advanced Math), plus AP Calculus my senior year, and always did well. I didn’t expect to like Geometry going in because it’s not one-right-answer like a lot of math, but I ended up enjoying the logical rigor of proofs.  (Though I do recall giving my Geometry teacher fits on occasion when my proofs took a non-standard tack…)

Did you have to learn new skills in order to do the math you use in your job? Or was it something that you could pickup using the skills you learned in school?

Most of it was learned in school, although base conversion isn’t something we spent a lot of time on.  I got good at it through long, frequent practice as you might guess…

Do you have a question for Joe? Send me your question and I will forward it to him.

Photo Credit: Dan Hamp via Compfight cc

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In Math Education

Four Sneaky (And Fun) Math Resources

For most of us, summer has wound down and school is either in session or just around the corner. The time for preventing summer brain drain is over. But you can continue to reinforce math skills with your kids (and even yourself!) no matter what time of year it is. Here are some really neat games, puzzles and books that help:

Rush Hour

As the video below shows, this game looks like it’s for little kids — but it’s not! I became obsessed with Rush Hour a few years ago, and I periodically bring it out to give myself a challenge. Additional cards can be purchased in expansion packages. Kids (and parents) can play alone or challenge one another to see who can get out of the traffic jam quickest! (Ages 8 years old and up, $19.99, ThinkFun)

Sudoku

If you’ve ever done one of these puzzles, you know that Sudoku doesn’t have much to do with everyday math. But they do reinforce pattern-identification skills, which is critical for basic math skills. These puzzles aren’t limited to numbers, either. For little kids (Kindergarten through first grade), try picture-based Sudoku. Or use a number Sudoku to help your child remember or learn his numbers.

Connect the Dots

For really little kids, this perennial favorite is a great way to reinforce counting numbers. But these puzzles aren’t just for tiny brains. Look for options that count by 2s or 10s or even consecutive prime numbers. Check out Monkeying Around for much more challenging designs.

Set Game

This is an oldie, but a goodie. The idea is to identify a “set” of three cards (from an array of 12 cards), based on four characteristics: color, shape, shading and number. It takes a while to get hang of this, but once players see the similarities and differences in the cards, the game can get really fast. Check out other games made by SET Enterprises. (Ages 8 years old and up, $12.99, SET Enterprises)

Books by Greg Tang  (Bonus suggestion, which wasn’t a bonus until a kind commenter pointed out that I didn’t count accurately. Oy.)

Featuring an intuitive approach to learning and understanding math, Greg Tang‘s books aren’t contrived stories that have a math lesson. Each page is chock full of problem-solving skills that encourage kids to discover new connections in math. New York Times Bestseller, Grapes of Math centers around a series of math riddles that delve deep into kids understandings of grouping and creative addition processes. His website was just amped up with cool online games, too.

Do you have a favorite game or book that sneaks in some math? Share it in the comments section!

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