Finding formulas for sine and cosine functions:

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SUMMARY

The discussion focuses on deriving formulas for the sums of cosine and sine functions: 1 + cos(θ) + cos(2θ) + ... + cos(nθ) and sin(θ) + sin(2θ) + ... + sin(nθ). The user references the geometric series formula, 1 + x + x^2 + ... + x^n = [x^(n+1) - 1]/[x-1], and the complex exponential form u = cos(θ) + isin(θ) to simplify calculations. The conclusion emphasizes that the sum can be expressed using the geometric series approach, specifically through the expression e^(ik*θ) for k=0 to n.

PREREQUISITES
  • Understanding of geometric series and their summation formulas.
  • Familiarity with Euler's formula: e^(iθ) = cos(θ) + isin(θ).
  • Basic knowledge of trigonometric functions and their properties.
  • Experience with complex numbers and their applications in trigonometry.
NEXT STEPS
  • Research the derivation of the geometric series sum formula in detail.
  • Explore the applications of Euler's formula in solving trigonometric identities.
  • Learn about the properties of complex exponentials and their relationship to trigonometric functions.
  • Investigate advanced techniques for summing series involving trigonometric functions.
USEFUL FOR

Students studying trigonometry, mathematicians interested in series summation, and educators looking for effective teaching methods for trigonometric identities.

silvermane
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Homework Statement


Find simple formulas for
1+ cos(θ) + cos(2θ) + cos(3θ) + ... + cos(nθ)
and
sin(θ) + sin(2θ) + sin(3θ) + ... + sin(nθ)


The Attempt at a Solution



It's not really a homework question, but more for making a problem that I'm trying to solve a little bit more simple to calculate.

I know that 1 + x + x^2 + ... + x^n = [x^(n+1) - 1]/[x-1]

and I also know that u = cos(θ) + isin(θ)

I'm just having a little block in as how to incorporate these formulas to make my calculation a little easier.



You guys have always been great, and I do my best helping others with their combinatorics and linear algebra too. I know I'll get a wonderful answer, probably with some enrichment added on like icing to a cake. (just showing a little gratitude... I can't tell you how many times I've had wonderful educative experiences from this forum. It really does leave a positive mark on my life, lol)

Thank you in advance for your help! :) It means a lot to me!
 
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Look at the sum e^(ik*theta) for k=0 to n. It's geometric isn't it?
 
Last edited:
Yes it is - Thanks for jump starting my brain, haha

:)
 

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