Science:Math Exam Resources/Courses/MATH152/April 2011/Question A 13
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Question A 13 

The unit square in is the set of all points with 0 ≤ x ≤ 1 and 0 ≤ y ≤ 1. In questions A13 and A14 below, suppose each point in the unit square undergoes a linear transformation that has the given matrix representation . Draw a labelled sketch of the transformed points. 
Make sure you understand the problem fully: What is the question asking you to do? Are there specific conditions or constraints that you should take note of? How will you know if your answer is correct from your work only? Can you rephrase the question in your own words in a way that makes sense to you? 
If you are stuck, check the hint below. Consider it for a while. Does it give you a new idea on how to approach the problem? If so, try it! 
Hint 

Actually, you only need to consider the transformation of 4 special points on the square. Which points are they? The picture of the transformed square follows from linking up these 4 transformed points. 
Checking a solution serves two purposes: helping you if, after having used the hint, you still are stuck on the problem; or if you have solved the problem and would like to check your work.

Solution 

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Please rate my easiness! It's quick and helps everyone guide their studies. As per the hint, we only have to consider the transformation of 4 special points. These points are the corners of the square. Linear transformations cannot distort the edges of a figure in such a way that they split an edge into a new corner. Therefore, the transformed figure must have the same amount of corners as the original figure. Because of this, it is easiest to just transform the corners and then connect them to make the new figure. Our transformation matrix is and the four corners of the square are [0,0], [1,0], [0,1], and [1,1]. Firstly notice that the origin will always map to itself because no matrix can multiply [0,0] to produce anything but [0,0]. Therefore, we really only have to transform 3 points. The transformation of [1,0] is, The transformation of [0,1] is, and the transformation of [1,1] is 