mathman said:When both apply, it is usually easier to work with Poisson. In the case of radioactive decay, the basic idea is that the mean (of the number decaying in a given unit of time) is very much smaller than the maximum possible (total number of atoms in the sample). Many other physical processes have this property, so the Poisson is used.
NoMoreExams said:Maybe I'm coming from a different background but Poisson is a counting process so for example if you talk about the number of things happening in an interval, you can think of Poisson as the first distribution (note that the interarrival times will be exponentially distributed). Binomial on the other hand is a simple yes or no process so to speak where each trial is independent. The way the distribution function for Binomial is developed is very intuitive to what it is (similarly with the geometric distribution).
At one point on our exams we had to look at a few results and decide if the underlying distribution was Binomial, Poisson or Negative Binomial. The way we did that was by look at the first 2 central moments. As such:
If E(X) = V(X) then we had Poisson simply from definition of Poisson parameter being both the mean and the variance
If E(X) > V(X) then we had Binomial since E(X) = np and V(x) = np(1-p) and (1-p) < 1 therefore we got our result
Finally if E(X) < V(X) then we had Negative Binomial since E(X) = rB and V(X) = rB(1+B)
Now obviously in the real world there's more than 3 choices and you don't always want to use a discrete distribution.
NoMoreExams said:Well under certain conditions (such as n is large enough) they would approach Normal as well :) I guess we are just coming from different backgrounds. I know almost nothing of science especially decay processes.
mathman said:The binomial will approach normal for large n when p is not too small. It approaches Poisson when np is much smaller than n.
NoMoreExams said:Really? I was under the impression that for sufficiently large n, both Binomial and Poisson will approach Normal (CLT?)
The main difference between Poisson and Binomial distributions lies in their underlying assumptions. Poisson distribution assumes a fixed interval or space, whereas Binomial distribution assumes a fixed number of trials. Additionally, Poisson distribution is used to model the number of occurrences of an event in a given time or space, while Binomial distribution is used to model the number of successes in a fixed number of independent trials.
Poisson distribution is used when the number of occurrences of an event is rare and the probability of success is low. It is commonly used in situations such as predicting the number of customers arriving at a store in a given time period or the number of cars passing through a toll booth in a day.
No, Binomial distribution is only used for discrete data, meaning that the possible outcomes are limited and countable. Continuous data, on the other hand, can take on any value within a range.
The mean of a Poisson distribution is equal to its parameter, λ, which represents the average number of occurrences of an event in a given time or space. The standard deviation is equal to the square root of λ.
In some cases, it is possible for a Poisson and Binomial distribution to have the same parameters. This occurs when the number of trials in a Binomial distribution is large and the probability of success is small, making it similar to a Poisson distribution. However, the underlying assumptions and interpretations may still differ between the two distributions.