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Estimated Time: 15 minutes
Students use their left arm as an Argand diagram and work in pairs to demonstrate transformations of complex two-component vectors.
Students use the embodied experience of using their left arm as an Argand diagram where the left shoulder is the origin and practice using this to represent various two-component complex vectors. The same convention should be chosen across the classroom; typically the partner on the left side represents the top component, and the one on the right side represents the bottom component.
Each example is chosen to highlight a particular aspect of the representation.
$$\pmatrix{1\\i} \rm{and} \pmatrix{1\\-i}$$
$$e^{i\pi/4}\pmatrix{1\\i}=\pmatrix{e^{i\pi/4}\\ie^{i\pi/4}}=\pmatrix{e^{i\pi/4}\\e^{i3\pi/4}}$$
$$\pmatrix{i&0\\0&1}\pmatrix{1\\i}=\pmatrix{i\\i}$$
$$\pmatrix{\cos\theta&\sin\theta\\-\sin\theta&\cos\theta}\pmatrix{1\\0}=\pmatrix{\cos\theta\\-\sin\theta}=\dfrac{1}{\sqrt{2}}\pmatrix{1\\-1}$, where $\theta=\dfrac{\pi}{4}$$
$$\pmatrix{\cos\theta&\sin\theta\\-\sin\theta&\cos\theta}\pmatrix{1\\i}=\pmatrix{\cos\theta+i\sin\theta\\-\sin\theta+i\cos\theta}=\dfrac{1}{\sqrt{2}}\pmatrix{1+i\\-1+i}=\pmatrix{e^{i\pi/4}\\e^{i3\pi/4}}=e^{i\pi/4}\pmatrix{1\\i}$$
After each example, a short wrap-up should be done by having one or more groups discuss what they did and why while highlighting the relative features of the particular example.
This activity is the second activity in a sequence addressing Visualizing Complex Numbers in the context of quantum mechanics.