\documentclass{article} \usepackage{amsmath} \usepackage[pdftex,designi]{web} \usepackage[pdftex]{exerquiz} \usepackage[pdftex]{eforms} \usepackage[ImplMulti]{dljslib} \everymath{\displaystyle} \parindent 0pt \definecolor{pozadi}{rgb}{1,1,0.9} \pagecolor{pozadi} \usepackage[picture,finetune]{jeopardy} \def\JeopardyPictureFile{aleq.jpg} \def\ChampionMsg{Niels Abel and Evariste Galois} \def\logoB{\rotatebox{90}{% \vbox{\normalsize\hbox{\color{red}{Robert Ma\v{r}\'{i}k}} \hbox{\color{green}Jeopardy game}}} \vfill} \let\rmdefault\sfdefault \hypersetup{pdfpagemode=Window, pdfnewwindow=true, pdfmenubar=true,% pdftoolbar=true,colorlinks, pdfwindowui=false, pdfpagemode=Window} \pagestyle{empty} \begin{insDLJS}[dljslibRMbbbb]{dljsliRMbbbb}{RMbbbb} function ProcRespSetFormulaEmpty(flag,CorrAns,n,epsilon,a,indepVar,oComp) { ok2Continue = true; if (!ProcessIt) return null; var fieldname = event.target.name; var UserAns = event.value; this.getField(fieldname).strokeColor = \eqDefaultColor; UserAns = stripWhiteSpace(UserAns); if (!ok2Continue) return null; if (UserAns == "empty") { success = (CorrAns == UserAns); return notifyField(success, flag, fieldname); } if (CorrAns == "empty") { success = (CorrAns == UserAns); return notifyField(success, flag, fieldname); } var aUserAns = UserAns.split(","); var aCorrAns = CorrAns.split(","); var numCorrect = 0; var match = 0; if ( aUserAns.length != aCorrAns.length ) return notifyField(false, flag, fieldname); for ( var i=0; i< aCorrAns.length; i++) { match = 0; for ( var j=i; j< aUserAns.length; j++) { var retn = _ProcResp(flag,aCorrAns[i],aUserAns[j],n,epsilon,a,indepVar,oComp); if ( retn == null ) return syntaxError(), null; if (retn==1) { var temp=aUserAns[j]; aUserAns[j]=aUserAns[i]; aUserAns[i]=temp; match = match + 1; } } numCorrect += (match) ? 1 : 0; } var success = (numCorrect == aCorrAns.length) ? true : false; if ( success == null ) return syntaxError(), null; return notifyField(success, flag, fieldname); } \end{insDLJS} \def\quest#1#2{ \begin{question} Solve the equation in the set of \textit{real} numbers. \begin{equation*} #1=0 \end{equation*} \bigskip \begin{itemize} \item Write the solution into the field. \item If there is no solution, write the word \textit{empty}. \end{itemize} \bigskip $x={}$\RespBoxMath{#2}{10}{1.0E-2}{0}{1}*{ProcRespSetFormulaEmpty} \end{question} } \title{Algebraic equations} %\def\title{Algebraic equations} \author{Robert Ma\v r\'\i k} \begin{document} \maketitle You will solve algebraic equations. Write the solutions as comma separated list, In the case of repeted solution write each solution only \textbf{once}! \SetGameWidth{0.5\linewidth} \Celltoks{\BC{}\BG{1 1 1}} \AditionalShift=4.6pt \newpage \MakeGameBoard \begin{category}{Linear} \quest{x+1}{-1} \quest{2x-3}{3/2} \quest{5x+15}{-3} \quest{7x+13}{-13/7} \quest{3x+1}{-1/3} \quest{2x+7}{-7/2} \quest{5x-6}{6/5} \quest{7x-13}{13/7} \end{category} \begin{category}{Quadratic1} \quest{x^2+x}{-1,0} \quest{x^2-9}{3,-3} \quest{x^2-7}{sqrt(7),-sqrt(7)} \quest{x^2+4x}{-4,0} \quest{x^2-x}{1,0} \quest{x^2+9}{empty} \quest{x^2}{0} \quest{x^2-4x}{4,0} \end{category} \begin{category}{Quadratic2} \quest{x^2+x+1}{empty} \quest{x^2-6x+9}{3} \quest{x^2-7x+6}{1,6} \quest{x^2+4x+4}{-2} \quest{x^2-3x+2}{1,2} \quest{x^2+2x+9}{empty} \quest{x^2-5x+6}{2,3} \quest{x^2+4x-21}{-7,3} \end{category} \begin{category}{Higher order} \quest{x^8-2}{2^(1/8),-2^(1/8)} \quest{x^3-2x}{0,sqrt(2),-sqrt(2)} \quest{x^4-1}{-1,1} \quest{x^3-8}{2} \quest{x^5-x^3}{1,-1,0} \quest{x^6-x^5}{1,0} \quest{x^3+2x^2+x}{0,-1} \quest{x^3+4x^2+5x}{0} \end{category} \newpage \newpage \textbf{\'Evariste Galois} (1811--1832) was a French mathematician born in Bourg-la-Reine. He died in a duel at the age of twenty. \medskip \textbf{Niels Henrik Abel} (1802--1829), Norwegian mathematician, was born in Nedstrand. In early April 1829 he obtained a position in Berlin, but the letter bringing the offer did not reach Norway until two days after Abel's death from tuberculosis. \medskip Both mathematicians proved the impossibility of solving the $5$-degree polynomial equation by radicals. \newpage \end{document}