Exponential distribution is a function of probability theory and statistics. This kind of distribution deals with continuous probability distributions and is part of the continuous analogue of the geometric distribution in math.
Continuous
Every function differs from every other function. Otherwise they would not be different functions!
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Exponential relationship!
fist disply your anser
That's true. If a function is continuous, it's (Riemman) integrable, but the converse is not true.
Exponential distribution is a function of probability theory and statistics. This kind of distribution deals with continuous probability distributions and is part of the continuous analogue of the geometric distribution in math.
Continuous
Every function differs from every other function. Otherwise they would not be different functions!
yes, every continuous function is integrable.
A __________ function takes the exponential function's output and returns the exponential function's input.
The parent function of the exponential function is ax
No. y = 1/x is continuous but unbounded.
Exponential Decay - Apex
No. The inverse of an exponential function is a logarithmic function.
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