How Can the Method of Differences Be Applied to Solve This Series Problem?

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The discussion focuses on applying the Method of Differences to find the sum of the series defined by the term Ur = (2r - 1)/r(r+1)(r+2). The initial attempt involved partial fractions, but the user received feedback indicating that the approach was incorrect. A correct separation of the terms in the numerator is suggested, leading to a revised expression for Ur. The final answer is derived by correctly splitting the fractions, demonstrating the proper application of the Method of Differences. The conversation emphasizes the importance of accurate partial fraction decomposition in solving series problems.
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Hi, I have this question that suppose to use Method of Differences to solve it.

By using the method of differences, find the sum of the first n terms of the series whose rth term, ur, are

Ur = (2r - 1)/r(r+1)(r+2)

I used partial fraction and found.

Ur = -1/(2r) + 3/(r+1) - 5/[2(r+2)]

then i did

-(1/2)[5/(r+2) - 6/(r+1)] - 1/(2r)
-(1/2)[5/(n+2) - 5/2] - (1/2)(1/r)
5/4 - 5/(2n+4) - (1/2)[1/(1/2)(n)(n+1)]
(10n + 20 - 20)/4(2n+4) - 1/(n)(n+1)

But the answer is wrong. Any help?
Thanks.
 
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You have made wrong partial fractions. that's not the way.

first separate the terms in numerator so Ur = 2/(r+1)(r+2) - 1/r(r+1)(r+2)

and now splitting them gives

Ur = 2(1/(r+1) - 1/(R+2)) - 1/2 (1/r(r+1) - 1/(r+1)(r+2)

so the final Answer will be = 2(1/2 - 1/(r+2)) - 1/2 (1/2 - 1/(r+1)(r+2))
 

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