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I want to self-study Fourier

  1. I want to self-study Fourier Transforms followed by signal analysis and Wavelets.I am considering buying the books: "Fourier
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    2. Sean asked by Sean
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  2. Evaluate the formula for cn in Fourier :integral of e^kx dx = e^kx /k :unless k=0: Type your formula for c0 and cn (n>0) into
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    2. jiya asked by jiya
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  3. Evaluate the formula for cn in Fourier :integral of e^kx dx = e^kx /k :unless k=0: Type your formula for c0 and cn (n>0) into
    1. answers icon 0 answers
    2. jiya asked by jiya
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  4. Evaluate the formula for cn in Fourier :integral of e^kx dx = e^kx /k :unless k=0: Type your formula for c0 and cn (n>0) into
    1. answers icon 1 answer
    2. jiya asked by jiya
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  5. Anyone can help me on this qns?The Fourier series expansion for the periodic function,f(t) = |sin t|is defined in its
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    2. Sarah asked by Sarah
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  6. The Fourier series expansion for the periodic function,f(t) = |sin t|is defined in its fundamental interval. Taking π = 3.142,
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    2. Margaret asked by Margaret
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  7. The Fourier series expansion for the periodic function,f(t) = |sin t|is defined in its fundamental interval. Taking π = 3.142,
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    2. Margaret asked by Margaret
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  8. There Champollion was introduced to the famous mathematician Jean-Baptiste Fourier. Fourier had accompanied Napoleon to Egypt,
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  9. Based on The Riddle of the Rosetta Stone: I’ve Got It! I’ve Got It! (part one), which statement best describes Jean-Baptiste
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    2. Conexus student asked by Conexus student
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  10. Fourier sin series for f(x) = 1, 0 < x < Pie is given by 1 = 4/n E 1/ (2n-1) times sin (2n-1) x, (0 < x < n).Using this, find
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    2. Joy asked by Joy
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