SamizdatMath

On September 18th, 2015, New York City standup comedian Matt Little recorded a video of a rat dragging a slice of pizza down the stairs at the First Avenue L train station in Manhattan. On September 21st, Little uploaded the video to his Instagram and YouTube accounts with a bemusing description comparing the rodent to Master Splinter from the Teenage Mutant Ninja Turtles (shown below). Within the first 24 hours, the video garnered over two million views. This is an investigation into the perime

If you can find another mathematical investigation into NYC pizza that is more complete than this, then I advise you to buy it immediately. This has taken me several years to research, write, proofread. You will learn the meaning of the word cornicione and why it is very important when talking about pizza. You will learn about the optimal size of a pizza to buy. This resource will save you lots of money in the future.

Do you want to know what the problem is with all that math you think you're "teaching?" It's missing something, and no, it's not "standards," or "aims" or "concision" or cryptocurrency. No, it's missing something far more important. AND, would you like to use a measurement system used by 98% of all the countries in the world? Your math is missing "ambiguity." And the metric system! Let's look at how your textbook is probably teaching area and perimeter. It probably states the definition, and th

This is an approach to teaching the geometric concepts of complementary, supplementary and exemplary (also known as conjugal) angles through groupwork and problem solving using non-standard examples. This makes this activity different from anything else you’re likely to see anywhere. Why is this? Because most curricula treat this important topic as one where students see some examples, solve some lame-o problems related to them, and then more on. No thought is given about how to make this intere

This is a collection of 30 different three-clue puzzles that lead to a solution that can be made on the geoboard using a single rubber band. Actually, there are some that can be solved, but not on a geoboard, and there are some that can't be solved at all (for example, making an equilateral triangle with a right angle.) The goal of these puzzles is for your students to take the descriptions of a shape and tun it into a visual representation (using a geoboard) and then record that solution and th

This is an activity that teaches students to classify acute, obtuse, straight and right angles using semaphore flag signals. Why semaphore flag signals? Because they're fun, interesting and "real." And also, they're a good example of how to teach a concept beyond the "prototypes." What do I mean by this? Well, do an image search on "right angle" and you'll see that the examples that show up are "textbook prototypes." That is, they all have a side resting on the horizontal, the other on the verti

Here’s a nice little “take home” activity that develops both visual spatial skills, mathematical vocabulary AND it's really fun! Here’s how it works: print out the puzzles and challenge booklet on card stock (or laminate before cutting out...) and have your kids cut them out. The kids cut out the “clue cards” and have kids write clues about the different puzzles. Then they can share their cards and look at one another’s clue cards, find the shape it is describing and use the puzzle pieces to “s

Think about it: the average American eats over 40 slices of pizza a year; if you live to be 80, and assuming you start at around 5 years old, this is 75 years of pizza x 40 slices per year, or 3,000 slices in your lifetime! Since this delicious food is such an important part of our life, doesn't it make sense that we understand everything there is about the economics of buying pizza? This is a series of activities that examines the economics of pizza in several different ways. First, it shows

This is an investigation where your students design, cut out and fold different networks in order to determine which ones will become a cube. Students are introduced to the concept of a network, learn how it can be used to form different types of polyhedra, and then investigate different ways (there are 11) to create a 2-D net that can be folded into a cube. Students then take the "working" and "non-working" nets and sort them onto a sheet, then compare their properties. There is also an activi

This is a short (40 minute or less) computer based geometry activity which gets students thinking about polygons "outside the box." In this case, it is looking at how to create a closed polygon by adjusting the angle with the number of sides. The activity uses "Papert," an online version of the LOGO computer language that can be accessed at the website http://logo.twentygototen.org. This activity describes in detail to small amounts of code needed to unlock the mystery of the "Total Turtle Trip

“Parity” is the mathematical concept of “evenness” and “oddness.” For example, we know that all whole numbers are either odd or even, and that if you add or subtract evens and odds, certain forms of parity will emerge. For example, if you add two odd or even numbers, you will end up with an even number; if you add an even and an odd, you’ll end up with an odd number. To make things more interesting, if you add an odd number of even numbers (say, 2 + 4 + 6), you’ll end up with an even number. How

It's a simple diagram with a lot of different triangles of lots of different sizes and lots of different directions. There's equilateral, isosceles and scalene, and there are obtuse, acute and right triangles. This activity shows how you can use this diagram to motivate your students to "see" triangles regardless of shape and orientation. Includes detailed suggestions on how to use in your class, as well as an answer key with not 1, not 2, but 3, count 'em, 3 different ways to count and keep tr

What are your students going to make their dads for Fathers Day? Yet another pen holder or a photo mouse pad? I'm a father, and I can guarantee you that those won't fly. Why not make dad a puzzle that he can patchka around with for a few months or years? This is a "threefer" activity: it gets your kids to work on solving geometry puzzles, which they then make into a Fathers Day gift for that special father in their life, AND it is a "clue game" where kids classify shapes according to their att

Greetings 3-D fans: this is a second edition of puzzles designed to be used with Snap Cubes or Multi-Link Cubes (NOT Unifix Cubes, unless you purchase a separate zero-gravity diode, which is currently out of stock....) We live in an era where children spend the majority of their time at home or in school looking at a screen: they swipe, tap and click their way through lessons or activities, and what do they get out of it? Bubkus! These are puzzles designed to develop and improve your students

This is a cool activity where your students practice their ruler skills, as well as composites of 10, and end up with a mathematical flower card which they can sign and give to their moms to hang on the refrigerator!

15 Geometry Area Challenges for ALL LEARNERS! • Don't you hate the way those practice sheets all show the base and heights of the figures your students are calculating the area? • Don't you hate the fact that the bases are always on the bottom, and the heights are always in the middle? • Don't you wish your students could do something more than "plug & chug" some numbers to get an answer? If these are your issues (at least, in mathematics; I don't do anything else...) then you should definit

Listen close and listen good: the only way your students are going to understand and master an important mathematical skill like finding the area of a trapezoid is by engaging in deep and challenging problem solving explorations. It's true and you know it. So don't be a slouch: try these "one cut" dissection puzzles on your kids - they have to cut out the trapezoids, make a single cut and then reassemble the pieces into a parallelogram (well, actually a rhomboid, but you can read my instruction

This is the ultimate and penultimate guide to teaching the area of a triangle. If you're teaching your students the formula base x height ÷ 2 and handing them a bunch of problems where you show the base and height and have them do the rest, well, you're just wasting your time, and miseducating your students. Smooth move, Ferguson... Here's are three essential things you should be teaching your students about finding the area of a triangle, some or all of which you are not teaching: 1) Every tr

If you're going to teach your students about how to find the area of a parallelogram (actually, it's technically a "rhomboid," because a parallelogram could also be a rectangle....) then you're most likely going to doing something bad like "multiply the base times the height," give a couple of dumb problems and call it a day. That's NO way to teach geometry, more or less math, or anything for that matter! This is a collection of geometric "dissections" where students cut out rhomboids, and, us

Here’s something cool that you can do with your students to help them develop and use the vocabulary of geometry, as well as refine their observation and reasoning skills. It also gets your students to think about what are “good” questions to when classifying a shape, and then how to follow those questions with more questions. The game itself is simple: print up the shape cards, cut them out and tape them onto students’ backs. The students then walk around the room asking “yes/no” questions a