Standard deviation confidence interval

Standards have also been developed for the statistical evaluations of frequency or numerical distributions, means and standard deviations, confidence intervals, regression, and correlation [26]. 

Fig. 17 A/S)C vs./s for PVAc on water at 23 °C for 77 < 15 mN m (A) and 77 < 15 mN m 1, which is the same as Fig. 16D but with error bars. Values for different surface pressures have been normalized to the conditions and limits of Fig. 16 with 1 standard deviation confidence intervals for the average of three wave vectors. Surface pressure increases counterclockwise in A and clockwise in B. Complete collapse of the film occurs at a surface pressure around 23.5 mN m-1. On the plot B, this corresponds to the cluster of points at

It is very important to report the results of analyses in ways that are readily and unambiguously understood. The methods used to determine average values, standard deviations, confidence intervals, uncertainties etc. must be clearly defined. In some application areas, the concept of a reporting limit is useful it is stated that the concentration of the analyte is not less than a particular value. Prudence indicates that this limit should be greater than the limit of detection (see Section 2.3). Use of an appropriate number of significant figures is also critical in reporting results, as this indicates the precision of the measurements. 

Statistical evaluation of results (detection and rejection of outliers calculation of the means, standard deviations, confidence intervals, combined expanded uncertainties, etc.)... 

MEASURE OF PRECISION OF A MEAN AND OF A STANDARD DEVIATION CONFIDENCE INTERVALS... 

S Empirical standard deviation — confidence interval, 1 stands for lower and ... 

The following is an example of a mathematical/statistical calculation of a calibration curve to test for true slope, residual standard deviation, confidence interval and correlation coefficient of a curve for a fixed or relative bias. A fixed bias means that all measurements are exhibiting an error of constant value. A relative bias means that the systematic error is proportional to the concentration being measured i.e. a constant proportional increase with increasing concentration. 

The statistical model for precision is shown in equation (1). For precision, Y is defined as observed mass. For each of the eight expected masses the precision components are reported as variances for each component. The total variance is the sum of the component variances. The component percent of total is calculated on the variance scale as (Variance component estimate/Total variance) x 100%. The square root of each variance estimate is taken and reported as the standard deviation. Confidence intervals were generated by SAS and reported on the variance scale square roots of the confidence limits were calculated and reported as the confidence interval for the component standard deviation. The coefficient of variation (%CV) is calculated as (Observed component std dev/Observed average) x 100%. Table 10 shows the precision results for the example validation. The acceptance criteria for... 

Before extracting statistical characteristics from a measurement series, such as mean value, standard deviation, confidence interval, etc., it has to be checked whether the data are proper with respect to certain criteria. For instance, the sample may contain extremely deviating measurements owing to a gross error (e.g., simply a typing error or improper measurement conditions). Such values are called outliers and must be removed form further consideration as they strongly falsify the characteristics of the sample. The same argumentation... 

It is my contention that as the art and science of calculating geologically interesting equilibria matures, the need for realistic uncertainty estimates will become very clear. The two most essential elements of a report on uncertainty are 1) a clear separation between an estimate of possible systematic error or bias and an estimate of precision and 2) a statement as to what index of precision is being used (i.e. range, standard deviation, confidence intervals, etc.). 

Another type of prediction interval that might be of interest is a one-sided upper prediction interval to contain the standard deviation of a future sample of m observations, again with a specified degree of confidence, 100(1 - a)%. This is called the standard deviation prediction interval (SDPI). The form of this equation is... 

Probabilistic sampling, which lies in the core of the DQO process, is based on a random sample location selection strategy. It produces data that can be statistically evaluated in terms of the population mean, variance, standard deviation, standard error, confidence interval, and other statistical parameters. The EPA provides detailed guidance on the DQO process application for the... 

Calculate the following descriptive statistics for the data on water hardness (mmoll ) given as follows arithmetic mean, median, standard deviation, variance, standard error, confidence interval at a significance level of 0.01, range, and the interquartile distance - 8.02 7.84 7.98 7.95 8.01 8.07 7.89. 

The F statistic, along with the z, t, and statistics, constitute the group that are thought of as fundamental statistics. Collectively they describe all the relationships that can exist between means and standard deviations. To perform an F test, we must first verify the randomness and independence of the errors. If erf = cr, then s ls2 will be distributed properly as the F statistic. If the calculated F is outside the confidence interval chosen for that statistic, then this is evidence that a F 2. 

Alternatively, a confidence interval can be expressed in terms of the population s standard deviation and the value of a single member drawn from the population. Thus, equation 4.9 can be rewritten as a confidence interval for the population mean... 

The population standard deviation for the amount of aspirin in a batch of analgesic tablets is known to be 7 mg of aspirin. A single tablet is randomly selected, analyzed, and found to contain 245 mg of aspirin. What is the 95% confidence interval for the population mean ... 

Confidence intervals also can be reported using the mean for a sample of size n, drawn from a population of known O. The standard deviation for the mean value. Ox, which also is known as the standard error of the mean, is... 

Earlier we introduced the confidence interval as a way to report the most probable value for a population s mean, p, when the population s standard deviation, O, is known. Since is an unbiased estimator of O, it should be possible to construct confidence intervals for samples by replacing O in equations 4.10 and 4.11 with s. Two complications arise, however. The first is that we cannot define for a single member of a population. Consequently, equation 4.10 cannot be extended to situations in which is used as an estimator of O. In other words, when O is unknown, we cannot construct a confidence interval for p, by sampling only a single member of the population. 

There is a temptation when analyzing data to plug numbers into an equation, carry out the calculation, and report the result. This is never a good idea, and you should develop the habit of constantly reviewing and evaluating your data. For example, if analyzing five samples gives an analyte s mean concentration as 0.67 ppm with a standard deviation of 0.64 ppm, then the 95% confidence interval is... 

This confidence interval states that the analyte s true concentration lies within the range of -0.16 ppm to 1.44 ppm. Including a negative concentration within the confidence interval should lead you to reevaluate your data or conclusions. On further investigation your data may show that the standard deviation is larger than expected. 

Unpaired Data Consider two samples, A and B, for which mean values, Xa and Ab, and standard deviations, sa and sb, have been measured. Confidence intervals for Pa and Pb can be written for both samples... 

Determine the density at least five times, (a) Report the mean, the standard deviation, and the 95% confidence interval for your results, (b) Eind the accepted value for the density of your metal, and determine the absolute and relative error for your experimentally determined density, (c) Use the propagation of uncertainty to determine the uncertainty for your chosen method. Are the results of this calculation consistent with your experimental results ff not, suggest some possible reasons for this disagreement. 

Calculate the mean, the standard deviation, and the 95% confidence interval about the mean. What does this confidence interval mean ... 

These standard deviations can be used to establish confidence intervals for the true slope and the true y-intercept... 

We begin by determining the confidence interval for the response at the center of the factorial design. The mean response is 0.335, with a standard deviation of 0.0094. The 90% confidence interval, therefore, is... 

When a small number of observations is made, the value of the standard deviation s, does not by itself give a measure of how close the sample mean x might be to the true mean. It is, however, possible to calculate a confidence interval to estimate the range within which the true mean may be found. The limits of this confidence interval, known as the confidence limits, are given by the expression ... 

Up to now (1971) only a limited number of reaction series have been completely worked out in our laboratories along the lines outlined in Sec. IV. In fact, there are rather few examples in the literature with a sufficient number of data, accuracy, and temperature range to be worth a thorough statistical treatment. Hence, the examples collected in Table III are mostly from recent experimental work and the previous ones (1) have been reexamined. When evaluating the results, the main attention should be paid to the question as to whether or not the isokinetic relationship holds i.e., to the comparison of standard deviations of So and Sqo The isokinetic temperature /J is viewed as a mere formal quantity and is given no confidence interval. Comparison with previous treatments is mostly restricted to this value, which has generally and improperly been given too much atention. 

Assuming for the moment that a large number of measurements went into a determination of a mean Xmean and a standard deviation s, what is the width of the 95% confidence interval, what are the 95% confidence limits ... 

A table of cumulative probabilities (CP) lists an area of 0.975002 for z -1.96, that is 0.025 (2.5%) of the total area under the curve is found between +1.96 standard deviations and +°°. Because of the symmetry of the normal distribution function, the same applies for negative z-values. Together p = 2 0.025 = 0.05 of the area, read probability of observation, is outside the 95% confidence limits (outside the 95% confidence interval of -1.96 Sx. .. + 1.96 Sx). The answer to the preceding questions is thus... 

Figure 1.17. The 95% confidence intervals for v and Xmean are depicted. The curves were plotted using the approximations given in Section 5.1.2 the /-axis was logarithmically transformed for a better overview. Note that solid curves are plotted as if the number of degrees of freedom could assume any positive value this was done to show the trend / is always a positive integer. The ordinates are scaled in units of the standard deviation.

Unfortunately, few chemists are aware of the large confidence interval a standard deviation carries (see Section 4.34) and thus are prone to setting down uiueasonable specifications, such as the one in the previous example. The only thing that saves them from permanent frustration is the fact that if n is kept small enough, the chances for obtaining a few similar results in... 

For standard deviations, an analogous confidence interval CI(.9jr) can be derived via the F-test. In contrast to Cl(Xmean), ClCij ) is not symmetrical around the most probable value because by definition can only be positive. The concept is as follows an upper limit, on is sought that has the quality of a very precise measurement, that is, its uncertainty must be very small and therefore its number of degrees of freedom / must be very large. The same logic applies to the lower limit. s/ ... 

The true standard deviation Ox is expected inside the confidence interval CI(5 , ) = /Vi. .. /V with a total error probability 2 p (in connection with F and x P taken to be one-sided). 

The test for the significance of a slope b is formally the same as a t-test (Section 1.5.2) if the confidence interval CI( ) includes zero, b cannot significantly differ from zero, thus ( = 0. If a horizontal line can be fitted between the plotted CL, the same interpretation applies, cf. Figures 2.6a-c. Note that si, corresponds to fx ean). that is, the standard deviation of a mean. In the above example the confidence interval clearly does not include zero this remains so even if a higher confidence level with t(f = 3, p = 0.001) = 12.92 is used. 

Figure 2.8. The slopes and residuals are the same as in Figure 2.4 (50,75,100, 125, and 150% of nominal black squares), but the A -values are more densely clustered 90, 95, 100, 105, and 110% of nominal (gray squares), respectively 96, 98, 100, 102, and 104% of nominal (white squares). The following figures of merit are found for the sequence bottom, middle, top the residual standard deviations +0.00363 in all cases the coefficients of determination 0.9996, 0.9909, 0.9455 the relative confidence intervals of b +3.5%, +17.6%, 44.1%. Obviously the extrapolation penalty increases with decreasing Sx.x, and can be readily influenced by the choice of the calibration concentrations. The difference in Sxx (6250, 250 resp. 40) exerts a very large influence on the estimated confidence limits associated with a, b, Y(x), and X( y ).

Conclusions the residual standard deviation is somewhat improved by the weighting scheme note that the coefficient of determination gives no clue as to the improvements discussed in the following. In this specific case, weighting improves the relative confidence interval associated with the slope b. However, because the smallest absolute standard deviations. v(v) are found near the origin, the center of mass Xmean/ymean moves toward the origin and the estimated limits of detection resp. quantitation, LOD resp. 

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