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13 Nov 2019
Problem 3. )The formula is still valid when N is an odd integer. Prove this, using a variation on the argument given by Gauss. The story continues: Gauss then gave the class a lecture on how his method could be used to sum an arithmeric series (a +1.b) +(a + 2.b) + (a +3.b)++ (a + N .b), where a and b are constants.
Problem 3. )The formula is still valid when N is an odd integer. Prove this, using a variation on the argument given by Gauss. The story continues: Gauss then gave the class a lecture on how his method could be used to sum an arithmeric series (a +1.b) +(a + 2.b) + (a +3.b)++ (a + N .b), where a and b are constants.
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Collen VonLv2
2 Jun 2019