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I have been given the following pdf :

fT (t; B, C) = ( exp(-t/C) - exp(-t/B) ) / ( C - B ) , (t>0) where the overall mean is B+C.

I am unsure as to how to write the log likelihood function of B and C.

The next part of the Q asks me to derive the equations that would have to be solved in order to find the max likelihood estimators of B and C.

I would be grateful for any help =)

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By definition, the log-likelihood is given by $ \ln \mathcal{L}(B,C|x_1 , \ldots ,x_n ) = \sum\limits_{i = 1}^n {\ln f(x_i|B,C)}. $ Thus, in our example, $ \ln \mathcal{L}(B,C|x_1 , \ldots ,x_n ) = \sum\limits_{i = 1}^n {\ln \bigg[\frac{{e^{ - x_i /C} - e^{ - x_i /B} }}{{C - B}}\bigg]} . $

EDIT: In view of the next part of the question, it may be useful to write $ \ln \mathcal{L}(B,C|x_1 , \ldots ,x_n ) = \sum\limits_{i = 1}^n {\ln [e^{ - x_i /C} - e^{ - x_i /B} ]} - n\ln (C - B). $

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    Wouldn't it be enough to write the equations corresponding to $\frac{\partial }{{\partial C}}\ln \mathcal{L}(B,C|x_1 , \ldots ,x_n ) = 0$ and $\frac{\partial }{{\partial B}}\ln \mathcal{L}(B,C|x_1 , \ldots ,x_n ) = 0$?2011-01-02