Back to . . .  Deposit #75 A Streaming Video Understanding Infinite Series in the Calculus   Professor Michael Krebs Jeffrey L. Derbidge of CSULA

 Harmonic Series   Click here or on the picture to view their video. Turn on your audio and be patient.  The speed of your internet connection makes a difference. Note:  This video may have problems streaming in RealOne Player. Windows Media Player version 8 or greater is recommended.  If not installed on your computer a free download is available.

Click on each image to reveiw the steps for determing the Harmonic Series is divergent
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 In the harmonic series, the sum of each group of fractions being added is greater than one-half. Thus, the harmonic series is constantly adding terms greater than any assignable limit.  We say the harmonic series diverges. ~~~~~ Convergence occurs only if the various sums "taken, from the first, in whatever number one wishes, finish by constantly have an absolute value less than any assignable limit." Cours d'analyse de l'Ecole Royale Polytechnique, VI,  Augustin-Louis Cauchy [From Cauchy's lecture notes.] ~~~~~ But as always in mathematics, be careful.  The alternating harmonic series converges. This is a result of the Taylor series of the natural logarithm.

 Series Quiz:  Identify the famous investigator. 1.       Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) . 2.       Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) . 3.       Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) . 4.     Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) . 5.       Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) . 6.       Choose One Oresme (1323 - 1349) Mercator (1620 -1687 Gregory (1638 -1675) Leibniz (1646 -1716) Taylor (1685 - 1731) Maclaurin (1698 -1746 Euler (1707 - 1783) .