Cut Cube

Find the shape and symmetries of the two pieces of this cut cube.

Cubic Spin

Prove that the graph of f(x) = x^3 - 6x^2 +9x +1 has rotational symmetry. Do graphs of all cubics have rotational symmetry?

Middle Man

Mark a point P inside a closed curve. Is it always possible to find two points that lie on the curve, such that P is the mid point of the line joining these two points?

Interpenetrating Solids

Stage: 5 Challenge Level:

This problem involves visualisation and rotation of cubes. A significant and important part of any visualisation problem is understanding clearly what the problem is asking of you and then thinking about the key features of the problem, so please be prepared to spend some time thinking about what the problem is about before putting pen to paper. Don't forget that sketches, diagrams and models are to be encouraged as they will help you as you work towards the solution .

Imagine that you place a cube on a flat table. You rotate the cube 45 degrees about the axis joining the centre of the top face to the centre of the bottom face.

Imagine that the original and rotated cube are superimposed. Imagine also the the resulting shape was sliced along each of the original and rotated faces. How many pieces would the shape fall into and what shapes would they be? Describe the shapes as accurately as possible.

Investigate the shapes you would get by rotating the cube by different angles about this axis.

How many rotations give a result where the original and rotated cube are in exactly the same location?

Now visualise the same process except with rotations of the cube about an axis passing through directly opposite corners.

A light is shone directly down from above the intersecting cubes. What shadow does it make on the table? This is called making a projection of the cubes.

Finally, suppose that the cube is rotated by 60 degrees about this axis through opposite corners and the original and rotated cube superimposed. The shape is sliced up along the six faces of the original cube What shape are the pieces which would be cut off, and how many are there? If possible give the dimensions of the shapes exactly.

Extension: You may like to consider the problem of rotating other solids such as tetrahedrons and octahedrons.