Statistical Functions Part One/text/scalc/01/04060181.xhp
Statistical Functions Part One
INTERCEPT functionpoints of intersectionintersectionsmw added two entries
INTERCEPT
Calculates the point at which a line will intersect the y-values by using known x-values and y-values.INTERCEPT(DataY; DataX)DataY is the dependent set of observations or data.DataX is the independent set of observations or data.Names, arrays or references containing numbers must be used here. Numbers can also be entered directly.To calculate the intercept, use cells D3:D9 as the y value and C3:C9 as the x value from the example spreadsheet. Input will be as follows:=INTERCEPT(D3:D9;C3:C9) = 2.15.COUNT functionnumbers;countingmw added one entry
COUNT
Counts how many numbers are in the list of arguments. Text entries are ignored.COUNT()The entries 2, 4, 6 and eight in the Value 1-4 fields are to be counted.=COUNT(2;4;6;"eight") = 3. The count of numbers is therefore 3.COUNTA functionnumber of entriesmw added one entry
COUNTA
Counts how many values are in the list of arguments. Text entries are also counted, even when they contain an empty string of length 0. If an argument is an array or reference, empty cells within the array or reference are ignored.UFI: fix to #i35888#COUNTA()The entries 2, 4, 6 and eight in the Value 1-4 fields are to be counted.=COUNTA(2;4;6;"eight") = 4. The count of values is therefore 4.COUNTBLANK functioncounting;empty cellsempty cells;counting
COUNTBLANK
Returns the number of empty cells.COUNTBLANK(Range)Returns the number of empty cells in the cell range Range.=COUNTBLANK(A1:B2) returns 4 if cells A1, A2, B1, and B2 are all empty.see also COUNTIFCOUNTIF functioncounting;specified cellsmw added one entry
COUNTIF
Returns the number of cells that meet with certain criteria within a cell range.COUNTIF(Range; Criteria)Range is the range to which the criteria are to be applied.Criteria indicates the criteria in the form of a number, an expression or a character string. These criteria determine which cells are counted.A1:A10 is a cell range containing the numbers 2000 to 2009. Cell B1 contains the number 2006. In cell B2, you enter a formula:=COUNTIF(A1:A10;2006) - this returns 1.=COUNTIF(A1:A10;B1) - this returns 1.=COUNTIF(A1:A10;">=2006") - this returns 4.=COUNTIF(A1:A10;"<"&B1) - when B1 contains 2006, this returns 6.=COUNTIF(A1:A10;C2) where cell C2 contains the text >2006 counts the number of cells in the range A1:A10 which are >2006.To count only negative numbers: =COUNTIF(A1:A10;"<0")
B functionprobabilities of samples with binomial distributionmw added one entry
B
Returns the probability of a sample with binomial distribution.B(Trials; SP; T1 [; T2])Trials is the number of independent trials.SP is the probability of success on each trial.T1 defines the lower limit for the number of trials.T2 (optional) defines the upper limit for the number of trials.What is the probability with ten throws of the dice, that a six will come up exactly twice? The probability of a six (or any other number) is 1/6. The following formula combines these factors:=B(10;1/6;2) returns a probability of 29%.RSQ functiondetermination coefficientsregression analysismw added regression analysis
RSQ
Returns the square of the Pearson correlation coefficient based on the given values. RSQ (also called determination coefficient) is a measure for the accuracy of an adjustment and can be used to produce a regression analysis.RSQ(DataY; DataX)DataY is an array or range of data points.DataX is an array or range of data points.=RSQ(A1:A20;B1:B20) calculates the determination coefficient for both data sets in columns A and B.BETAINV functioncumulative probability density function;inverse ofmw added one entry
BETAINV
Returns the inverse of the cumulative beta probability density function.BETAINV(Number; Alpha; Beta [; Start [; End]])Number is the value between Start and End at which to evaluate the function.Alpha is a parameter to the distribution.Beta is a parameter to the distribution.Start (optional) is the lower bound for Number.End (optional) is the upper bound for Number.=BETAINV(0.5;5;10) returns the value 0.33.BETA.INV functioncumulative probability density function;inverse ofmw added one entry
BETA.INV
Returns the inverse of the cumulative beta probability density function.BETA.INV(Number; Alpha; Beta [; Start [; End]])Number is the value between Start and End at which to evaluate the function.Alpha is a parameter to the distribution.Beta is a parameter to the distribution.Start (optional) is the lower bound for Number.End (optional) is the upper bound for Number.=BETA.INV(0.5;5;10) returns the value 0.3257511553.BETADIST functioncumulative probability density function;calculatingmw added one entry
BETADIST
Returns the beta function.BETADIST(Number; Alpha; Beta [; Start [; End [; Cumulative]]])Number is the value between Start and End at which to evaluate the function.Alpha is a parameter to the distribution.Beta is a parameter to the distribution.Start (optional) is the lower bound for Number.End (optional) is the upper bound for Number.Cumulative (optional) can be 0 or False to calculate the probability density function. It can be any other value or True or omitted to calculate the cumulative distribution function.=BETADIST(0.75;3;4) returns the value 0.96.BETA.DIST functioncumulative probability density function;calculatingmw added one entry
BETA.DIST
Returns the beta function.BETA.DIST(Number; Alpha; Beta; Cumulative [; Start [; End]])Number (required) is the value between Start and End at which to evaluate the function.Alpha (required) is a parameter to the distribution.Beta (required) is a parameter to the distribution.Cumulative (required) can be 0 or False to calculate the probability density function. It can be any other value or True to calculate the cumulative distribution function.Start (optional) is the lower bound for Number.End (optional) is the upper bound for Number.=BETA.DIST(2;8;10;1;1;3) returns the value 0.6854706=BETA.DIST(2;8;10;0;1;3) returns the value 1.4837646BINOMDIST function
BINOMDIST
Returns the individual term binomial distribution probability.BINOMDIST(X; Trials; SP; C)X is the number of successes in a set of trials.Trials is the number of independent trials.SP is the probability of success on each trial.C = 0 calculates the probability of a single event and C = 1 calculates the cumulative probability.=BINOMDIST(A1;12;0.5;0) shows (if the values 0 to 12 are entered in A1) the probabilities for 12 flips of a coin that Heads will come up exactly the number of times entered in A1.=BINOMDIST(A1;12;0.5;1) shows the cumulative probabilities for the same series. For example, if A1 = 4, the cumulative probability of the series is 0, 1, 2, 3 or 4 times Heads (non-exclusive OR).BINOM.DIST function
BINOM.DIST
Returns the individual term binomial distribution probability.BINOM.DIST(X; Trials; SP; C)X is the number of successes in a set of trials.Trials is the number of independent trials.SP is the probability of success on each trial.C = 0 calculates the probability of a single event and C = 1 calculates the cumulative probability.=BINOM.DIST(A1;12;0.5;0) shows (if the values 0 to 12 are entered in A1) the probabilities for 12 flips of a coin that Heads will come up exactly the number of times entered in A1.=BINOM.DIST(A1;12;0.5;1) shows the cumulative probabilities for the same series. For example, if A1 = 4, the cumulative probability of the series is 0, 1, 2, 3 or 4 times Heads (non-exclusive OR).BINOM.INV function
BINOM.INV
Returns the smallest value for which the cumulative binomial distribution is greater than or equal to a criterion value.BINOM.INV(Trials; SP; Alpha)Trials The total number of trials.SP is the probability of success on each trial.Alpha The border probability that is attained or exceeded.=BINOM.INV(8;0.6;0.9) returns 7, the smallest value for which the cumulative binomial distribution is greater than or equal to a criterion value.CHISQINV function
CHISQINV
Returns the inverse of CHISQDIST.CHISQINV(Probability; Degrees of Freedom)Probability is the probability value for which the inverse of the chi-square distribution is to be calculated.Degrees Of Freedom is the degrees of freedom for the chi-square function.CHISQ.INV function
CHISQ.INV
Returns the inverse of the left-tailed probability of the chi-square distribution.CHISQ.INV(Probability; DegreesFreedom)Probability is the probability value for which the inverse of the chi-square distribution is to be calculated.Degrees Of Freedom is the degrees of freedom for the chi-square function.=CHISQ.INV(0,5;1) returns 0.4549364231.CHIINV function
CHIINV
Returns the inverse of the one-tailed probability of the chi-squared distribution.CHIINV(Number; DegreesFreedom)Number is the value of the error probability.DegreesFreedom is the degrees of freedom of the experiment.A die is thrown 1020 times. The numbers on the die 1 through 6 come up 195, 151, 148, 189, 183 and 154 times (observation values). The hypothesis that the die is not fixed is to be tested.The Chi square distribution of the random sample is determined by the formula given above. Since the expected value for a given number on the die for n throws is n times 1/6, thus 1020/6 = 170, the formula returns a Chi square value of 13.27.If the (observed) Chi square is greater than or equal to the (theoretical) Chi square CHIINV, the hypothesis will be discarded, since the deviation between theory and experiment is too great. If the observed Chi square is less that CHIINV, the hypothesis is confirmed with the indicated probability of error.=CHIINV(0.05;5) returns 11.07.=CHIINV(0.02;5) returns 13.39.If the probability of error is 5%, the die is not true. If the probability of error is 2%, there is no reason to believe it is fixed.CHISQ.INV.RT function
CHISQ.INV.RT
Returns the inverse of the one-tailed probability of the chi-squared distribution.CHISQ.INV.RT(Number; DegreesFreedom)Number is the value of the error probability.DegreesFreedom is the degrees of freedom of the experiment.A die is thrown 1020 times. The numbers on the die 1 through 6 come up 195, 151, 148, 189, 183 and 154 times (observation values). The hypothesis that the die is not fixed is to be tested.The Chi square distribution of the random sample is determined by the formula given above. Since the expected value for a given number on the die for n throws is n times 1/6, thus 1020/6 = 170, the formula returns a Chi square value of 13.27.If the (observed) Chi square is greater than or equal to the (theoretical) Chi square CHIINV, the hypothesis will be discarded, since the deviation between theory and experiment is too great. If the observed Chi square is less that CHIINV, the hypothesis is confirmed with the indicated probability of error.=CHISQ.INV.RT(0.05;5) returns 11.0704976935.=CHISQ.INV.RT(0.02;5) returns 13.388222599.If the probability of error is 5%, the die is not true. If the probability of error is 2%, there is no reason to believe it is fixed.CHITEST function
CHITEST
Returns the probability of a deviance from a random distribution of two test series based on the chi-squared test for independence. CHITEST returns the chi-squared distribution of the data.The probability determined by CHITEST can also be determined with CHIDIST, in which case the Chi square of the random sample must then be passed as a parameter instead of the data row.CHITEST(DataB; DataE)DataB is the array of the observations.DataE is the range of the expected values.
=CHITEST(A1:A6;B1:B6) equals 0.02. This is the probability which suffices the observed data of the theoretical Chi-square distribution.CHISQ.TEST function
CHISQ.TEST
Returns the probability of a deviance from a random distribution of two test series based on the chi-squared test for independence. CHISQ.TEST returns the chi-squared distribution of the data.The probability determined by CHISQ.TEST can also be determined with CHISQ.DIST, in which case the Chi square of the random sample must then be passed as a parameter instead of the data row.CHISQ.TEST(DataB; DataE)DataB is the array of the observations.DataE is the range of the expected values.
=CHISQ.TEST(A1:A6;B1:B6) equals 0.0209708029. This is the probability which suffices the observed data of the theoretical Chi-square distribution.CHIDIST function
CHIDIST
Returns the probability value from the indicated Chi square that a hypothesis is confirmed. CHIDIST compares the Chi square value to be given for a random sample that is calculated from the sum of (observed value-expected value)^2/expected value for all values with the theoretical Chi square distribution and determines from this the probability of error for the hypothesis to be tested.The probability determined by CHIDIST can also be determined by CHITEST.CHIDIST(Number; DegreesFreedom)Number is the chi-square value of the random sample used to determine the error probability.DegreesFreedom are the degrees of freedom of the experiment.=CHIDIST(13.27; 5) equals 0.02.If the Chi square value of the random sample is 13.27 and if the experiment has 5 degrees of freedom, then the hypothesis is assured with a probability of error of 2%.CHISQ.DIST function
CHISQ.DIST
Returns the probability density function or the cumulative distribution function for the chi-square distribution.CHISQ.DIST(Number; DegreesFreedom; Cumulative)Number is the chi-square value of the random sample used to determine the error probability.DegreesFreedom are the degrees of freedom of the experiment.Cumulative can be 0 or False to calculate the probability density function. It can be any other value or True to calculate the cumulative distribution function.=CHISQ.DIST(3; 2; 0) equals 0.1115650801, the probability density function with 2 degrees of freedom, at x = 3.=CHISQ.DIST(3; 2; 1) equals 0.7768698399, the cumulative chi-square distribution with 2 degrees of freedom, at the value x = 3.CHISQ.DIST.RT function
CHISQ.DIST.RT
Returns the probability value from the indicated Chi square that a hypothesis is confirmed. CHISQ.DIST.RT compares the Chi square value to be given for a random sample that is calculated from the sum of (observed value-expected value)^2/expected value for all values with the theoretical Chi square distribution and determines from this the probability of error for the hypothesis to be tested.The probability determined by CHISQ.DIST.RT can also be determined by CHITEST.CHISQ.DIST.RT(Number; DegreesFreedom)Number is the chi-square value of the random sample used to determine the error probability.DegreesFreedom are the degrees of freedom of the experiment.=CHISQ.DIST.RT(13.27; 5) equals 0.0209757694.If the Chi square value of the random sample is 13.27 and if the experiment has 5 degrees of freedom, then the hypothesis is assured with a probability of error of 2%.CHISQDIST functionchi-square distribution
CHISQDIST
Returns the value of the probability density function or the cumulative distribution function for the chi-square distribution.CHISQDIST(Number; Degrees Of Freedom [; Cumulative])Number is the number for which the function is to be calculated.Degrees Of Freedom is the degrees of freedom for the chi-square function.Cumulative (optional): 0 or False calculates the probability density function. Other values or True or omitted calculates the cumulative distribution function.EXPONDIST functionexponential distributions
EXPONDIST
Returns the exponential distribution.EXPONDIST(Number; Lambda; C)Number is the value of the function.Lambda is the parameter value.UFI removed a double bookmarkC is a logical value that determines the form of the function. C = 0 calculates the density function, and C = 1 calculates the distribution.=EXPONDIST(3;0.5;1) returns 0.78.EXPON.DIST functionexponential distributions
EXPON.DIST
Returns the exponential distribution.EXPON.DIST(Number; Lambda; C)Number is the value of the function.Lambda is the parameter value.UFI removed a double bookmarkC is a logical value that determines the form of the function. C = 0 calculates the density function, and C = 1 calculates the distribution.=EXPON.DIST(3;0.5;1) returns 0.7768698399.