|
version 1.3, 2003/05/29 20:30:51
|
version 1.5, 2013/07/08 03:29:27
|
|
Line 1
|
Line 1
|
| \label{Tolerance} |
\label{Tolerance} |
| A \textbf{tolerance\index{tolerance}} parameter determines how closely |
A \textbf{tolerance\index{tolerance}} parameter determines how closely |
| the system will require the student's answer to be in order to count it correct. |
the system will require the student's answer to be in order to count it correct. |
| |
The tolerance will default to zero if it is not defined. |
| |
The tolerance parameter should always be defined for a numerical problem |
| |
unless you are certain only integer answers are generated from your script and |
| |
you want students to reply with exactly that integer. |
| |
|
| |
If the computer answer is a floating point number, the tolerance should not |
| For technical reasons, it is almost never a good idea to set this parameter |
be zero. Computers can only approximate computations involving real numbers. For instance, |
| to zero. Computers can only approximate computations involving real numbers. For instance, |
|
| a computer's {[}decimal{]} answer to the simple problem $\frac{1}{3}$ is |
a computer's {[}decimal{]} answer to the simple problem $\frac{1}{3}$ is |
| {}``0.33333333333333331''. It \emph{should} be an infinite series of 3's, |
{}``0.33333333333333331''. It \emph{should} be an infinite series of 3's, |
| and there certainly shouldn't be a {}``1'' in the answer, but no computer |
and there certainly shouldn't be a {}``1'' in the answer, but no computer |
| can represent an infinitely long, infinitely detailed real number. Therefore, |
can represent an infinitely long, infinitely detailed real number. Therefore, |
| for any problem where the answer is not a small integer, you \emph{need} |
for any problem where the answer is not an integer, you \emph{need} |
| to allow a tolerance factor, or the students will find it nearly impossible |
to allow a tolerance factor, or the students will find it nearly impossible |
| to exactly match the computers idea of the answer. You may find the |
to exactly match the computer's idea of the answer. You may find the |
| default too large for some problems. |
default tolerance too large for some problems, so adjust as appropriate. |
| |
|
| There are |
There are three kinds of tolerance. For some answer $A$ and a tolerance $T$, |
| three kinds of tolerance. For some answer $A$ and a tolerance $T$, |
|
| |
|
| \begin{enumerate} |
\begin{enumerate} |
| \item an \textbf{Absolute} tolerance\index{absolute tolerance}\index{tolerance, absolute} |
\item an \textbf{Absolute} tolerance\index{absolute tolerance}\index{tolerance, absolute} |
|
Line 37 $\$X-\$tolerance$ to $\$X+\$tolerance$.
|
Line 39 $\$X-\$tolerance$ to $\$X+\$tolerance$.
|
| close to zero are possible for some students) |
close to zero are possible for some students) |
| |
|
| \end{enumerate} |
\end{enumerate} |
| |
|
| |
Some care is necessary when setting the display format of the computer answer. |
| |
Before testing the tolerance, LON-CAPA converts the computer answer, |
| |
as generated in the script block, according to the |
| |
format attribute in the numericalresponse tag. |
| |
|
| |
Next, the formatted compuer answer is "graded" relative to the significant |
| |
figures parameter, if it is set (see section \ref{Significant_Figures}. |
| |
If that test was passed, then a numerical comparison of the Computer's |
| |
answer is made with the range of values: |
| |
|
| |
(\$computerAnswer - \$tolerance) < \$formattedcomputerAnswer < |
| |
(\$computerAnswer + \$tolerance) |
| |
|
| |
If the \$formattedcomputerAnswer satisfies the permitted range, then |
| |
"correct" is returned for the computer answer. It is good idea to test multiple |
| |
randomizations to make sure that your tolerance is compatible with the display format. |
| |
|
| |
|
![[BACK]](/icons/back.gif){kind=icon}
Return to Tolerance.tex CVS log ![[TXT]](/icons/text.gif){kind=icon}
![[DIR]](/icons/dir.gif){kind=icon}
Up to [LON-CAPA] / loncom / html / adm / help / tex