When using the Geometer's Sketchpad it is often better to "start from sketch, not from scratch". That is, give students a premade sketch rather having them build something from nothing (as many textbooks would have you do). In this activity students can download a GSP sketch that allows them to practice determining the hypotenuse (on the first page) or a leg (on the second page). The sketch will generate an infinite number of questions and give a full solution for each. Note: Although Pythagorean Theorem is introduced in grade 8, it is only supposed to be relating more to the area model so these practice problems may not fit that.

MPM1D, MFM1P: D, C2.2 - solve problems using the Pythagorean theorem, as required in applications

MPM2D, MFM2P: C,A2.2 - determine the measures of the sides and angles in right triangles, using the primary trigonometric ratios and the Pythagorean theorem;

All that is needed are the electronic downloads (below)

Note that this really works well on an iPad using the Sketchpad Explorer App (which is free)

You can also use this on any web based computer (or Chromebook) with this Web sketch

Watch the video below to see how to use the sketch. The first page can be used for determining the hypotenuse and the second page can be used for determining a leg. Both will randomly generate an infinite number of problems.

When using the Geometer's Sketchpad it is often better to "start from sketch, not from scratch". That is, give students a premade sketch rather having them build something from nothing (as many textbooks would have you do). In this activity students can download a GSP sketch that allows them to practice determining the midpoint of a line segment on the first page (this part could also be used to check answers) and then to be quizzed with randomly generated sets of points on the second page.

MPM2D: B2.1 - develop the formula for the midpoint of a line segment, and use this formula to solve problems

All that is needed are the electronic downloads (below)

Note that this really works well on an iPad using the Sketchpad Explorer App (which is free)

You can also use this on any web based computer (or Chromebook) with this Web sketch

Watch the video below to see how to use the sketch. The first page can be used for discovery or for checking problems and the second page can be used for quizzing students as it will generate an infinite number of random segments to find the midpoint of.

This is a geometry review activity where students will find missing angles formed by lines, in triangles and in polygons. The game is loosely based on the Candyland board game where students move pieces around a board and answer questions based on the colour they land on.

MPM1D, MFM1P - determine, through investigation using a variety of tools (e.g., dynamic geometry software, concrete materials), and describe the properties and relationships of the interior and exterior angles of triangles, quadrilaterals, and other polygons, and apply the results to problems involving the angles of polygons

MFM1P - determine, through investigation using a variety of tools (e.g., dynamic geometry software, concrete materials), and describe the properties and relationships of the angles formed by parallel lines cut by a transversal, and apply the results to problems involving parallel lines

For each group (groups of two or four - playing against each other or in teams of two)

up to four game pieces

one die

one game board printed in colour on card stock (laminated if possible). If you wish, one group can play on the Smartboard.

one instruction sheet printed on card stock (laminated if possible) with answer sheet on the back (preferably printed in colour)

one set of question cards. Each set consists of five types of questions that are colour coded. Print each on colour card stock (there is one page with 8-10 questions for each colour) and laminate (if possible) then cut them out. The colour of the cards loosely group the types of questions to supplementary, complementary, opposite angles (yellow), angles in triangles (blue), parallel lines (red), angles in polygons (green), more challenging questions that may require algebra (white).

Game Setup

Separate the cards by colour.
Shuffle each colour and make a face down pile for each.

Decide on teams (or play
individually) and place a marker on START for your team.

Keep the answer card face down
at all times until checking your answers.

Game Play

Each team takes turns rolling
the die and moving your markers.

When you land on a colour, choose
the appropriate card and answer the question (determine the values of the
unknown variables). You have up to 2 minutes to answer your question.

A player from the opposing team
uses the answer key to quickly check your answer. If you do not answer your
question correctly, move back to your last position.Remember: the answer sheet must remain face
down at all times except for checking solutions.

If you land on a Mystery spot
(marked with a ?) you will have 3 minutes to answer (since these are tougher
questions). If you answer correctly, you get a free die roll and move to the
appropriate spot without having to answer another question. If you answer
incorrectly move back to your last position as before.

Ending the game

To win the
game, you must land exactly on the “You Win!” spot.

Once there,
the opposing team will choose a question (but not a Mystery question) from one
of the piles (without looking).

If you answer correctly, you win. If you answer incorrectly, move back to your
last spot.

The video, below, is only visible in the WECDSB domain. That is, only teachers in our school board can see the video if they are logged into their MyTools2Go accounts.

In grade 9 we are supposed to develop the formula for the volume of a pyramid via investigation. That is, by doing some sort of procedure (not algebraically). If you are lucky your schools might have a set (or several sets) of these volumetric solids so you can pour liquids from one to another to compare but if not, here is a cheap way to do the same thing (at least for right prisms). For an idea of how to do it via water and the volumetric solids, check out this post from Tap Into Teen Minds.

MPM1D, MFM1P - develop, through investigation (e.g., using concrete materials), the formulas for the volume of a pyramid, a cone, and a sphere (e.g., use three-dimensional figures to show that the volume of a pyramid [or cone] is 1/3 the volume of a prism [or cylinder] with the same base and height, and therefore that V_{pyramid}= V_{prism}/3

Each student or group needs six of the large nets to make their rectangular prism and three of the small nets to make the cube. See below to download the nets.

Note that each of these shapes is a pyramid, just non symmetrical.

Note that these instructions are for students. You may just wish to do this as a demo.

Have the students construct the nine shapes using the nets (6 large and 3 small).

Taking the six large shapes, construct three symmetrical pyramids. Note the dimensions (size of base and height).

Using the same six shapes, create a rectangular prism. Note the dimensions (size of base and height).

How do the height and base of the prism compare to the one of the symmetrical pyramids?

How do the volumes of each pyramid compare to that of the prism?

Taking the three small shapes, note the type of solid and its dimensions (size of base and height)

Using the same three shapes construct a cube. Note the dimensions (size of base and height)

How do the height and base of the cube compare to each non symmetrical pyramid?

How do the volumes of each non symmetrical pyramid compare to that of the cube?

If you had any prism and a pyramid with the same base and height, how would the volume of the pyramid compare to the prism?

As an added feature you may wish to construct a figure that folds in and out from one shape to several shapes as seen in the videos below.

A rectangular prism in six parts (pdf) (doc) Answers (pdf) (doc)

A cube in three parts (pdf) (doc) Answers (pdf) (doc)

Did you use this activity? Do you have a way to make it better? If so tell us in the comment section. Thanks