Also see Binomial Test - Simple Tutorial for a quick explanation of how this test works.
SPSS binomial test is used for testing whether a proportion from a single dichotomous variable is equal to a presumed population value. The figure illustrates the basic idea.
SPSS Binomial Test Example
A biologist claims that 75% of a population of spiders consist of female spiders. With a lot of effort he collects 15 spiders, 7 of which are female. These data are in spiders.sav, part of which are shown below.
1. Quick Data Check
Let's first take a quick look at the FREQUENCIES
for gender
. Like so, we can inspect whether there are any missing values and whether the variable is really dichotomous. We'll run some FREQUENCIES
. The syntax is so simple that we'll just type it instead of clicking through the menu.
frequencies gender.
The output tells us that there are no missing values and the variable is indeed dichotomous. We can proceed our analysis with confidence.
2. Assumptions Binomial Test
The results from any statistical test can only be taken seriously insofar as its assumptions have been met. For the binomial test we need just one:
- independent observations (or, more precisely, independent and identically distributed variables);
This assumption is beyond the scope of this tutorial. We presume it's been met by the data at hand.
3. Run SPSS Binomial Test
We'd like to test whether the proportion of female spiders differs from .75 (our test proportion). Now SPSS Binomial Test has a very odd feature: the test proportion we enter applies to the category that's first encountered in the data. So the hypothesis that's tested depends on the order of the cases. Because our test proportion applies to female (rather than male) spiders, we need to move our female spiders to the top of the data file. We'll do so by running the syntax below. Next, we'll run the actual binomial test.
sort cases by gender.
Clicking
results in the syntax below. We'll run it and move on the output.NPAR TESTS
/BINOMIAL (.75)=gender
/MISSING ANALYSIS.
4. SPSS Binomial Test Output
Since we have 7 female spiders out of 15 observations, the observed proportion is (7 / 15 =) .47.
Our null hypothesis states that this proportion is .75 for the entire population.
The p value, denoted by Exact Sig. (1-tailed) is .017. If the proportion of female spiders is exactly .75 in the entire population, then there's only a 1.7% chance of finding 7 or fewer female spiders in a sample of N = 15. We often reject the null hypothesis if this chance is smaller than 5% (p < .05). We conclude that the proportion of female spiders is not .75 in the population but probably (much) lower.
Note that the p value is the chance of finding the observed proportion or a “more extreme” outcome. If the observed proportion is smaller than the test proportion, then a more extreme outcome is an even smaller proportion than the one we observe.The reasoning is entirely reversed when the observed proportion is larger than the expected proportion. We ignore the fact that finding very large proportions would also contradict our null hypothesis. This is what's meant by (1-tailed).A 2-tailed binomial test is only be applied when the test proportion is exactly .5. The (rather technical) reason for this is that the binomial sampling distribution for the observed proportion is only symmetrical in the latter case.
5. Reporting a Binomial Test
When reporting test results, we always report some descriptive statistics as well. In this case, a frequency table will do. Regarding the significance test, we'll write something like “a binomial test indicated that the proportion of female spiders of .47 was lower than the expected .75, p = .017 (1-sided)”.
THIS TUTORIAL HAS 36 COMMENTS:
By carl on September 20th, 2018
Thanks Ruben, you website is also amazing.
By Ruben Geert van den Berg on September 20th, 2018
Thanks for the compliment! We're working on it.
By Achenef on March 24th, 2019
Nice explanation. but I want to know how to test proportions in binomial if i want to test the proportion is whether greater than or equal to some value. that is to do Z test in SPSS
By Ruben Geert van den Berg on March 24th, 2019
Hi Achenef!
First off, there's 2 z-tests: for one proportion and for the difference between 2 independent proportions.
A z-test for 1 proportion answers the same question as the binomial test: is the population proportion likely to be x? The binomial test gives the exact significance level but no power or confidence interval.
The z-test gives the approximate significance and requires reasonable sample sizes.
For some dumb reason, SPSS does not include either z-test by default. However, we published a Z-Test and Confidence Interval Proportion Tool some time ago.
Hope it helps!
SPSS tutorials
By seth kunen on April 20th, 2020
Why is there not a value for the binomial test statistic, like for t, f, and z tests?