Do you think I could just leave this part blank and it'd be okay? We're just going to replace the whole thing with a header image anyway, right?
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i have an equation:
i found roots for that equation:
1)
2)
3)
the problem is, i need to visualize these roots on the complex plane, but i have no idea how to do it when they are in trigonometric form, and afaik there is no way to convert it to algebraic form
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there is some sort of smartt maths thingy called if im right wolfram aplha (google it) whihc ca maby help
thanks hg for making this much better and ty for my avatar aswell
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Great, one more thing that 99% of the world will forget the second they graduate.
Great, one more thing that 99% of the world will forget the second they graduate.
Excuse me, but complex analysis is actually a field of mathematics that finds application in real life, for example, it is used in electromagnetism branch of physics.
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Great, one more thing that 99% of the world will forget the second they graduate.
if i weren't interested in this i would've gone to this field to study complex numbers
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This form is useful because cos θ + i sin θ represents a unit vector from the origin at angle θ anti-clockwise from the positive real axis, so that form effectively says that the lines from the origin to those points are of length root6(12) at angles -π/9, 5π/9, and 11π/9. When you plot these you'll also notice something else but I won't spoil the surprise just in case you haven't seen it yet
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at angles -π/9, 5π/9, and 11π/9. When you plot these you'll also notice something else but I won't spoil the surprise just in case you haven't seen it yet
i instantly suspected something because i noticed that 5п/9 - (-п/9) = 11п/9 - 5п/9
but yeah i plotted it and that looks pretty cool
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This form is useful because cos θ + i sin θ represents a unit vector from the origin at angle θ anti-clockwise from the positive real axis, so that form effectively says that the lines from the origin to those points are of length root6(12) at angles -π/9, 5π/9, and 11π/9. When you plot these you'll also notice something else but I won't spoil the surprise just in case you haven't seen it yet
Thanks, I also posted it on Reddit and got an answer
I knew about the symmetry, I knew about length or the vector and it's angles. But I only did that 1-2 times in class, so when I got home I got lost with cos() and sin()
Should've remembered that angle is the actual angle of the vector, no need for any cos sin calculations
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Here is the result of anyone wonders
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The world has been saved!
★ ☆ ★ ☆ ★
☆ ★ ★
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