Difference between revisions of "Manuals/calci/HYPGEOMDIST"

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==Examples==
 
==Examples==
  
#HARMEAN(1,2,3,4,5)=2.18978102189781
+
Draw 6 cards from a deck without replacement.
#HARMEAN(20,25,32,41)=27.4649361523969
+
What is the probability of getting two hearts?
#HARMEAN(0.25,5.4,3.7,10.1,15.2)=1.0821913906985883                 
+
Here M = 13 number of hearts
#HARMEAN(3,5,0,2)=NAN
+
N = 52 total number of cards
#HARMEAN(1,-2,4)=NAN
+
so N-M= 52-13= 39 and
 +
x=2,n=6 so n-x=6-2=4
 +
HYPGEOMDIST(2,6,13,52)=0.315129882
 +
2.42 balls are numbered 1 - 42.
 +
You select six numbers between 1 and 42. What is the probability that they contain
 +
(i)match 3?
 +
(ii) match 4?
 +
(i)Here M= 6,N=42,x=3and n=6
 +
HYPGEOMDIST(3,6,6,42)=0.02722185
 +
(ii)Here M= 6,N=42,x=4and n=6
 +
HYPGEOMDIST(4,6,6,42)=0.001801446
 +
3.
  
 
==See Also==
 
==See Also==

Revision as of 01:41, 10 December 2013

HYPGEOMDIST(n1,n2,n3,n4)


  • is the sample's success.
  • is the sample's size.
  • is population's success.
  • is the population size.

Description

  • This function gives the result of Hypergeometric distribution.
  • This distribution is a discrete probability distribution which is contrast to the binomial distribution.
  • A hypergeometric random variable is the number of successes that result from a hypergeometric experiment.
  • The probability distribution of a hypergeometric random variable is called a hypergeometric distribution.
  • In HYPGEOMDIST(n1,n2,n3,n4) where n1 is thenumber of items in the Sample that are classified as successes.
  • n2 is the total number of items in the sample.
  • n3 is thenumber of items in the population that are classified as successes and n4 is the total number of items in the sample.
  • The following conditions are applied to the Hypergeometric distribution:
  1. This distribution is applies to sampling without replacement from a finite population whose elements can be classified into two categories like success or Failure.
  2. The population or set to be sampled consists of N individuals, objects,or elements
  3. Each individual can be success (S) or a failure (F),

and there areM successes in the population.

  1. A sample of n individuals is selected without replacement in such a way that each subset of size n is equally likely to be chosen. The Hyper geometric probability distribution is:

P(X=x)=h(x;n,M,N)=(M (N-M

                                    x)           n-x)         /(N     
                                                                      n)  for x is an integer satisfying   max(0, n-N+M)<=x<=min(n,M). where x is sample's success.
  • n is the sample's size.
  • M is population's success and N is the population size.
  • Here we can give any positive real numbers.
  • Suppose we are assigning any decimals numbers it will change in to Integers.
  • This function will give result as error when
  1. Any one of the argument is nonnumeric.
  2. n1<0 or n1 is greater than the smaller value of n2 or n3.
  3. n1 is less than the bigger of 0 or(n2-n4+n3)
  4. n2<=0 or n2>n4
  5. n3<=0 or n3>n4 or n4<=0"

Examples

Draw 6 cards from a deck without replacement. What is the probability of getting two hearts? Here M = 13 number of hearts N = 52 total number of cards so N-M= 52-13= 39 and x=2,n=6 so n-x=6-2=4 HYPGEOMDIST(2,6,13,52)=0.315129882 2.42 balls are numbered 1 - 42. You select six numbers between 1 and 42. What is the probability that they contain (i)match 3? (ii) match 4? (i)Here M= 6,N=42,x=3and n=6 HYPGEOMDIST(3,6,6,42)=0.02722185 (ii)Here M= 6,N=42,x=4and n=6 HYPGEOMDIST(4,6,6,42)=0.001801446 3.

See Also


References

Correlation