This table presents processed quiz data in a way suitable for anayzing and judging the performance of each question for the function of assessment. The statistical parameters used are calculated as explained by classical test theory (ref. 1)

This is a measure of how easy or difficult is a question for quiz-takers.
It is calculated as:

FI = (X_{average}) / X_{max}

where X_{average} is the mean credit obtained by all users attempting the item,

and X_{max} is the maximum credit achievable for that item.

If questions can be distributed dicotomically into correct / uncorrect categories,
this parameter coincides with the percentage of users that answer the question correctly.

This parameter measures the spread of answers in the response population. If all users answers the same, then SD=0. SD is calculated as the statistical stadard deviation for the sample of fractional scores (achieved/maximum) at each particular question.

This provides a rough indicator of the performance of each item to separate proficient
*vs.* less-proficient users. This parameter is calculated by first dividing learners into thirds
based on the overall score in the quiz. Then the average score at the analyzed item is calculated for
the groups of top and bottom performers, and the average scored substracted. The matematical expression is:

DI = (X_{top} - X_{bottom})/ N

where X_{top} is the sum of the fractional credit (achieved/maximum) obtained at this item by the 1/3 of users having tha highest
grades in the whole quiz (i.e. number of correct responses in this group),

and X_{bottom}) is the analog sum for users with the lower 1/3 grades for the whole quiz.

This parameter can take values between +1 and -1. If the index goes below 0.0 it means that more of the weaker learners got the item right than the stronger learners. Such items should be discarded as worthless. In fact, they reduce the accuracy of the overall score for the quiz.

This is another measure of the separating power of the item to distinguish proficient from weak learners.

The discrimination coefficient is a correlation coefficient between scores at the item and at the whole quiz. Here it is calculated as:

DC = Sum(xy)/ (N * s_{x} * s_{y})

where Sum(xy) is the sum of the products of deviations for item scores and overall quiz scores,

N is the number of responses given to this question

s_{x} is the standard deviation of fractional scores for this question and,

s_{y} is the standard deviation of scores at the quiz as a whole.

Again, this parameter can take values between +1 and -1. Positive values indicate items that
do discriminate proficient learners, whereas negative indices mark items that are answered best by
those with lowest grades. Items with negative DC are answered incorrectly by the seasoned learners
and thus they are actually a penalty against the most proficient learners. Those items should be avoided.
Note that, if all learners get exactly the same score for this question, then s_{x} is zero, and DC will
be undefined. This is indicated as DC = -999.00.

The advantage of Discrimination Coefficient vs. Discrimitation Index is that the former uses information from the whole population of learners, not just the extreme upper and lower thirds. Thus, this parameter may be more sensitive to detect item performance.