Why does a Percent correct on a memory task is an example of a variable with a scale of measurement and is a numerical observation.?
two actos and forty four percent of 30 actos
82%
0.548% = 0.00548
60% is 0.6.
To calculate the Percent to Plan, you can first substitute the variable X for the percent and the variable Y for the Plan, and then you can solve for the end rate of percent to plan easily.
0.02% = 0.0002
.5% = .005
You start of with a null hypothesis according to which the variable has some specified distribution. Some of the parameters of this distribution may need to be estimated using the observed data. Against this hypothesis you will have an alternative hypothesis about the distribution of the variable. You then assume that the null hypothesis is true and calculate the probability that the variable (or a test statistic based on that variable) has the observed numerical value or one that is more extreme. (In deciding what is more extreme you need to know the alternative hypothesis.) If that probability is less than 0.1 % then the result is significant at 0.1% - and so on.
Measurement error: obviously!
That depends what the measurement is one percent of.
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the rate, number, or amount in each hundred