Significant Results

Prerequisites

Questions

Should rejection of the null hypothesis should be an all-or-none proposition?
What is the value of a significance test when it is extremely likely that the null hypothesis of no difference is false even before doing the experiment?

When a probability value is below the α level, the effect is statistically significant and the null hypothesis is rejected
However, not all statistically significant effects should be treated the same way
For example, you should have less confidence that the null hypothesis is false if p = 0.049 than p = 0.003
Thus, rejecting the null hypothesis is not an all-or-none proposition

If the null hypothesis is rejected, then the alternative hypothesis is accepted

Consider the one-tailed test in the James Bond case study:

Mr. Bond was given 16 trials on which he judged whether a Martini had been shaken or stirred and the question is whether he is better than chance on this task

H 0 π ≤ 0.5
π is the probability of being correct on any given trial

If this null hypothesis is rejected, then the alternative hypothesis that π > 0.5 is accepted
If π is greater than 0.50 then Mr. Bond is better than chance on this task

Now consider the two-tailed test used in the Physicians' Reactions case study

H0: μobese = μaverage
H1: μobese < μaverage
or
H1: μobese > μaverage

The direction of the sample means determines which alternative is adopted
If the sample mean for the obese patients is significantly lower than the sample mean for the average-weight patients, then one should conclude that the population mean for the obese patients is lower than than the sample mean for the average-weight patients

There are many situations in which it is very unlikely two conditions will have exactly the same population means
For example, it is practically impossible that aspirin and acetaminophen provide exactly the same degree of pain relief
Therefore, even before an experiment comparing their effectiveness is conducted, the researcher knows that the null hypothesis of exactly no difference is false
However, the researcher does not know which drug offers more relief
If a test of the difference is significant, then the direction of the difference is established

This text is optional

Some textbooks have incorrectly stated that rejecting the null hypothesis that two population means are equal does not justify a conclusion about which population mean is larger
Instead, they say that all one can conclude is that the population means differ
The validity of concluding the direction of the effect is clear if you note that a two-tailed test at the 0.05 level is equivalent to two separate one-tailed tests each at the 0.025 level
The two null hypotheses are then

μobese ≥ μaverage
μobese ≤ μaverage

If the former of these is rejected, then the conclusion is that the population mean for obese patients is lower than that for average-weight patients
If the latter is rejected, then the conclusion is that the population mean for obese patients is higher than that for average-weight patients

	The population mean SAT score of the seniors is less than the population mean SAT score of the freshmen.
	The population mean SAT score of the seniors is greater than the population mean SAT score of the freshmen.
	You cannot be sure which alternative hypothesis to accept. You just know that the null hypothesis was rejected.

	Significance testing provides no useful information since all it does is reject a null hypothesis.
	Significance testing is informative because you still need to know whether an effect is significant even if you know the null hypothesis is false.
	When a difference is significant you can draw a confident conclusion about the direction of the effect.