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- Feb 16, 2005
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- 2006
Hi there.....
I'm having trouble understanding a particular method of decomposition into partial fractions. (NB: _ means subscript cos I don't know how to make subscripts here)
"One way of carrying out a decomposition by using the fact that c_i = R(a_i)/B'(a_i). This may be derived by noting that if
R(x)/B(x) = c_1 / (x - a_1) +...........+ c_n/ (x - a_n)
where B(x) = (x - a_1).............(x - a_n)
.: B(a_1) = 0
then multiply both sides by (x - a_1)
.: R(x).(x - a_1)/[B(x) - B(a_1)] = c_1 + (x - a_1)c_2/(x - a_2) +......+ (x - a_1)c_n/(x - a_n)
As x --> a_1, then LHS --> R(a_1)/B'(a_1) and RHS --> c_1
.: c_1 = R(a_1)/B'(a_1)"
The part in bold is what I don't understand. Where did the derivative come from?
I'm having trouble understanding a particular method of decomposition into partial fractions. (NB: _ means subscript cos I don't know how to make subscripts here)
"One way of carrying out a decomposition by using the fact that c_i = R(a_i)/B'(a_i). This may be derived by noting that if
R(x)/B(x) = c_1 / (x - a_1) +...........+ c_n/ (x - a_n)
where B(x) = (x - a_1).............(x - a_n)
.: B(a_1) = 0
then multiply both sides by (x - a_1)
.: R(x).(x - a_1)/[B(x) - B(a_1)] = c_1 + (x - a_1)c_2/(x - a_2) +......+ (x - a_1)c_n/(x - a_n)
As x --> a_1, then LHS --> R(a_1)/B'(a_1) and RHS --> c_1
.: c_1 = R(a_1)/B'(a_1)"
The part in bold is what I don't understand. Where did the derivative come from?