Chapter 2) Discrete Distrubutions : Binomial And Poisson Flashcards
Conditions for binomial probability
(3)
1) n independent trials
2) only two possibilities , success and failure
3) probability of these are FIXED
What is the mean and the variance of a binomial distribution?
Mean or exoected value = NP
Variance = NPQ (n x p x (1-p))
How to find the most probable value in binomial and why is this only one
Go around the mean, and test for the highest probability
Will only be one because binomial distribution is SYMMETRICAL and has one peak
In order to derrive E(x) and var(x) for binomial we need to know what binomial distribution basically is
What is a Bernoulli and how does the binomial distribution x relate to this
It’s the sum of n Independent Bernoulli trials
Where a Bernoulli trial is a special case of thr binomial distribution where n =1 and p = p
Assuming this we can say that The whole distributor of X is a summation of all n Bernoulli trials
X = x1 +x2 +x3 to n
Derrive e(x) and var(x) taking into account Bernoulli
If x -B (1,p) there are only two possibilites X = 0 and x=1
Write these down in table form and write the probabilities for both of them. ( Q, P)
Find E (xi)
Relate to equation E(x) = e(x1 +x2 +x3) = E(x1) + E(x2) …
Realise this means multiply by n
2) do the same for Var( x), and factorise
Will get np and np (1-p)
what does poisson distrubtuin normally model
Things with uniform average rate of occurrence
And that are modelled to infinity (not fixed number of trials)
What are THREE conditions that possion distribution can be used
IMPORTANT
Remember to use in context!!
1) events are RANDOM and INDEPENDENT
2) events occur SINGLY (2,3 can’t happen at once)
3) AND OCCUR AT A UNIFORM AVERAGE rate of occurrence = to LAMDA
So why is insurance claims after a flood not poission
Because these aren’t Gonna happen at a uniform rate of occurrence, they have been spiked up because of the flood!
Normally then yeah can use
What else about E(X) and Var(x) , what are they, and how can you thus tell based on these model could fit position distribution
E(x) = lambda
Var(x) ALSO = LAMBDA
so if you work out these and they roughly similar, can say model fits a POSSION DISTRUBTION
Whatsa defining feature about possion compared to others in terms of n
N goes to INFINITY
How to adjust position distribution if thr time period change?
Multiply the rate by the factor of time difference!
Remmeber the fact that these are all DISCRETE variable distributions means what
It means that x can only be whole numbers, not like normal disturb ti on where it’s CONTINOUS instead
How to add positions distinctions? What is the conditond
They Must be INDEPENDENT random variables x and y with means
Now x+y - po (mew + lambda)
Can we subtrsvt position distrutbions? Why
NO
because x -y could give us negstive numbers
By defintion position distubtion goes form 0 to infinity, so can’t run
When using a frequency table to find expected values for a POISSON distrubtion, how to do this
WHAT TO REMEMBER ABOUT FINDING FINAL PROBABILITY
Basically find the probability for each cagheroy and multiply by total to get expected frequency (because probability x total)
However remember the LAST category should be that and more, as possion goes to infinity
So need to find that probability a bit differently, DOMT lack , they should all add to 1
