Difference between revisions of "Manuals/calci/HYPGEOMDIST"
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− | <div style="font-size: | + | <div style="font-size:20px">'''HYPGEOMDIST (sample_s,number_sample,population_s,number_population,cumulative)'''</div><br/> |
− | *<math> | + | *<math>samples</math> is the sample's success. |
− | *<math> | + | *<math>number sample</math> is the sample's size. |
− | *<math> | + | *<math>population s</math> is population's success. |
− | *<math> | + | *<math>number population</math> is the population size. |
+ | **HYPGEOMDIST(),returns the hypergeometric distribution. | ||
==Description== | ==Description== | ||
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*A Hypergeometric random variable is the number of successes that result from a Hypergeometric experiment. | *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. | *The probability distribution of a Hypergeometric random variable is called a Hypergeometric Distribution. | ||
− | *In HYPGEOMDIST( | + | *In HYPGEOMDIST (sample_s,number_sample,population_s,number_population,cumulative) where samples is the number of items in the Sample that are classified as successes. |
− | *<math> | + | *<math>number sample</math> is the total number of items in the sample. |
− | *<math> | + | *<math>populations</math> is the number of items in the population that are classified as successes and <math>numberpopulation</math> is the total number of items in the sample. |
*The following conditions are applied to the Hypergeometric distribution: | *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. | + | 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 | 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), | + | 3.Each individual can be success (S) or a failure (F), and there are M successes in the population. |
− | and there are M successes in the population. | + | 4.A sample of <math>n</math> individuals is selected without replacement in such a way that each subset of |
− | 4.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. | + | size <math>n</math> is equally likely to be chosen. |
*The Hyper geometric probability distribution is: | *The Hyper geometric probability distribution is: | ||
<math>\frac{\binom{m}{x} \binom{N-M}{n-x}}{\binom{m}{x}}</math> | <math>\frac{\binom{m}{x} \binom{N-M}{n-x}}{\binom{m}{x}}</math> | ||
− | + | for <math>x</math> is an integer satisfying <math>max(0, n-N+M)<=x<=min(n,M)</math>. where <math>x</math> is sample's success. | |
*<math>n</math> is the sample's size. | *<math>n</math> is the sample's size. | ||
*<math>M</math> is population's success and <math>N</math> is the population size. | *<math>M</math> is population's success and <math>N</math> is the population size. | ||
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*This function will give result as error when | *This function will give result as error when | ||
1.Any one of the argument is non-numeric. | 1.Any one of the argument is non-numeric. | ||
− | 2.<math> | + | 2.<math>samples < 0</math> or samples is greater than the smaller value of numbersample or populations. |
− | 3.<math> | + | 3.<math>samples</math> is less than the bigger of 0 or(numbersample-numberpopulation+populations) |
− | 4.<math> | + | 4.<math>numbersample \le 0</math> or <math>numbersample>numberpopulation</math> |
− | 5.<math> | + | 5.<math>populations \le 0</math> or <math>populations>numberpopulation</math> or <math>numberpopulation \le 0</math> |
+ | |||
+ | ==ZOS== | ||
+ | *The syntax is to calculate HYPGEOMDIST in ZOS is <math>HYPGEOMDIST (sample s,number sample,population s,number population,cumulative) | ||
+ | </math> | ||
+ | **<math>sample s</math> is the sample's success. | ||
+ | **<math>number sample</math> is the sample's size. | ||
+ | **<math>population s</math> is population's success. | ||
+ | **<math>number population</math> is the population size. | ||
+ | *For e.g.,HYPGEOMDIST(2..3,6..7,9..10,20) | ||
+ | |||
+ | {{#ev:youtube|fui0xWgBO4g|280|center|Hyper-geometric Distribution}} | ||
==Examples== | ==Examples== | ||
− | Draw 6 cards from a deck without replacement. | + | #Draw 6 cards from a deck without replacement.What is the probability of getting two hearts? |
− | What is the probability of getting two hearts? | + | Here M = 13 number of hearts |
− | Here M = 13 number of hearts | + | N = 52 total number of cards |
− | N = 52 total number of cards | + | so N-M= 52-13= 39 and |
− | so N-M= 52-13= 39 and | + | x=2,n=6 so n-x=6-2=4 |
− | x=2,n=6 so n-x=6-2=4 | + | =HYPGEOMDIST(2,6,13,52)=0.315129882 |
− | HYPGEOMDIST(2,6,13,52)=0.315129882 | + | #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 | |
− | You select six numbers between 1 and 42. What is the probability that they contain | + | HYPGEOMDIST(3,6,6,42)=0.02722185 |
− | (i)match 3 | + | (ii)Here M= 6,N=42,x=4and n=6 |
− | (ii) match 4 | + | HYPGEOMDIST(4,6,6,42)=0.001801446 |
− | (i)Here M= 6,N=42,x=3and n=6 | + | |
− | HYPGEOMDIST(3,6,6,42)=0.02722185 | + | ==Related Videos== |
− | (ii)Here M= 6,N=42,x=4and n=6 | + | |
− | HYPGEOMDIST(4,6,6,42)=0.001801446 | + | {{#ev:youtube|NMeVWPdo7e4|280|center|Hyper-Geometric Distribution}} |
− | |||
==See Also== | ==See Also== | ||
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==References== | ==References== | ||
− | [http://en.wikipedia.org/wiki/ | + | [http://en.wikipedia.org/wiki/Hypergeometric_distribution| Hypergeometric Distribution] |
+ | |||
+ | |||
+ | |||
+ | *[[Z_API_Functions | List of Main Z Functions]] | ||
+ | |||
+ | *[[ Z3 | Z3 home ]] |
Latest revision as of 16:19, 7 August 2018
HYPGEOMDIST (sample_s,number_sample,population_s,number_population,cumulative)
- is the sample's success.
- is the sample's size.
- is population's success.
- is the population size.
- HYPGEOMDIST(),returns the hypergeometric distribution.
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 (sample_s,number_sample,population_s,number_population,cumulative) where samples is the number of items in the Sample that are classified as successes.
- is the total number of items in the sample.
- is the number of items in the population that are classified as successes and 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 are M successes in the population. 4.A sample of individuals is selected without replacement in such a way that each subset of size is equally likely to be chosen.
- The Hyper geometric probability distribution is:
for is an integer satisfying . where is sample's success.
- is the sample's size.
- is population's success and 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 non-numeric. 2. or samples is greater than the smaller value of numbersample or populations. 3. is less than the bigger of 0 or(numbersample-numberpopulation+populations) 4. or 5. or or
ZOS
- The syntax is to calculate HYPGEOMDIST in ZOS is
- is the sample's success.
- is the sample's size.
- is population's success.
- is the population size.
- For e.g.,HYPGEOMDIST(2..3,6..7,9..10,20)
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
- 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
Related Videos
See Also
References