# Posts from the ‘KS5 (VI Form)’ Category

Geometer’s Sketchpad is one of my favourite programs but extremely annoying to author in. Here I have created a zipped archive of some of my past Sketchpad efforts for anyone who wants them. I have included a brief description of each file below.

If you don’t have Geometer’s Sketchpad then these will not be very useful to you. You can get hold of a copy from The Curriculum Press in the UK.

#### ConstructingAnEllipse

An extremely simple file exhibiting the construction of an ellipse defined by two centers and a point. The problem is that the “Locus Constructions” that are revealled don’t tell the whole story; how did I arrive at choosing those two circles to construct the circle with? This requires thought about the definition of an ellipse and the nature of construction.

#### ConeFromCircle

If you cut a sector from a circle (the bright-red sector) you can join the two radial sides together to form a cone. What is that cone’s volume? How do you maximise the volume of the cone? This sketch allows an exploration of the structure of the problem prior to doing the maths on it. It is a good exploration for construction of graphs at lower levels, or using calculus at higher levels.

#### Projectile Motion

A useful sketch for teaching calculus, start with the initial position of the projectile on the ground. Some of the ‘features’ on this sketch are odd and may require some exploration before they make sense!

#### ProjectiveCuboid

An example of how to construct a cube using two-point perspective

I believe that this sketch comprises a proof that all quadrilaterals do in fact tessellate. It is an interesting question to whether it does in fact constitute a proof (what is a proof anyway?!) Choose your quadrilateral and click the buttons in order to follow the argument steps.

#### HexagonalSlideTessellation & HexagonalRotationalTessellation

Dynamic examples of how to distort tessellating hexagons in such a way to ensure that the result also tessellates.

#### Egg

An interesting construction of an egg using four arcs of four circles, it questions students to consider the relationship between mathematics and aesthetics.

To motivate students to think about the nature of language and language acquisition, the following activity is great fun. It requires a lot of patience and careful management. The activity is to communicate only through clapping in order to move a student to a particular position in the room.

Setup

I ask one game student to leave the room so that he cannot hear the class instructions. He will be invited back to a very strange environment, and that he shouldn’t be embarrassed or worried about the activity, but just do what he thought we wanted him to do.

Once he leaves the room, I tell the students that they may not talk under any circumstances from now on. They should not discuss with one another the activity until I say they can. I will bring the volunteer back into the room, and they are to make him move to the front of the room standing exactly where I am now (move to some unlikely position first). They can do this only by clapping. They can use body language if they must, but can’t use pointing, but or try to mouth words to the subject. I then ask one student to go and get the subject and bring him into the room.

The likely result is disaster! Allow the disaster to run for a while and then stop the class. Ask the subject to leave. Ask a couple of students to to review what happened, allow students one minute to discuss with one another strategies. In one minute, stop the discussion, and get the subject back in.

Repeat this a few times. It may result in total disaster, but more likely they will eventually settle on a hot/cold strategy whereby the clapping intensifies as the subject moves to the room.

A New Subject

If possible, then ask another teacher to come to the room – this may need to be setup ahead of time. The class should by this point be quite coordinated in their efforts, and hopefully the teacher will move to the correct position.

Discussion

Teaching Theory of Knowledge you teach a lot of students who actively dislike mathematics and don’t want to engage in any mathematical thought. The idea that mathematics could be a beautiful thing, or that beauty may have a mathematical aspect is often surprising.

This activity was one I concocted for my students and it has worked well on numerous occassions. Having downloaded and printed in colour the Mathematics and Beauty Cards PDF you can give a set to a group of four to six students with the straightforward instruction that they order the cards from most beautiful to least beautiful without any equivocation. This will likely take them twenty minutes. If you have an interactive whiteboard you may then also find useful the Mathematics and Beauty Flash Application which offers a very simple mechanism for reviewing the decisions students make.

My dad’s great guide to Marx & Engel’s famous work deserves to be used by Philosophy students:

<h2 style="text-align: center;"The German Ideology – A Student’s Guide

You are welcome to use this file in whole or in part for any educational purpose so long as the author is recognised.