Elettronica generale

'; OutString += ''; OutString += NavBar; if (Feedback.length>0){ OutString += '' } OutString += '

'; OutString += ''; OutString += Feedback; OutString += '

'; //Write it to the frame TopFrame.document.clear(); TopFrame.document.open(); TopFrame.document.write(OutString); TopFrame.document.close(); } function DisplayExercise(){ //Build the output string var OutString = ''; OutString += ''; OutString += '

'; OutString += ''; OutString += TitleCode; OutString += Buttons1; OutString += BuiltExercise; OutString += Buttons2; OutString += BuiltClues; OutString += NavBar; OutString += '

'; if (is.CRAPBrowser){OutString=ResolveAllURLs(OutString);} //Write it to the frame BottomFrame.document.clear(); BottomFrame.document.open(); BottomFrame.document.write(OutString); BottomFrame.document.close(); } function BuildClue(ClueNum,x,y,Across){ var OutString = ''; if (Across == true){ if (ClueNum >= A.length){ return ''; } if (A[ClueNum] == null){ return ''; } OutString = ClueNum + '. ' + A[ClueNum]; OutString += GetAnswer; OutString = ReplaceStuff('[BoxName]', 'BA'+ClueNum, OutString); //Find out how long the answer is AnsLength = 0; i = x; j = y; while (j= D.length){ return ''; } if (D[ClueNum] == null){ return ''; } OutString = ClueNum + '. ' + D[ClueNum]; OutString += GetAnswer; OutString = ReplaceStuff('[BoxName]', 'BD'+ClueNum, OutString); //Find out how long the answer is AnsLength = 0; i = x; j = y; while (i 0){ OutString += '
'; } OutString = OutString + 'Down: ' + ClueNum + '. ' + D[ClueNum]; OutString += GetAnswer; OutString = ReplaceStuff('[BoxName]', 'BD'+ClueNum, OutString); //Find out how long the answer is AnsLength = 0; i = x; j = y; while (i-1){ FirstBit = InString.substring(0, i); LastBit = InString.substring(i + Token.length, InString.length); InString = FirstBit + Replacement + LastBit; i = InString.indexOf(Token); } return InString; } L = new Array(); L[0] = new Array('C','O','N','D','E','N','S','A','T','O','R','E'); L[1] = new Array('','P','','','','','','','','','',''); L[2] = new Array('','E','M','E','T','T','I','T','O','R','E',''); L[3] = new Array('','R','','','','','','','','','',''); L[4] = new Array('','A','','','','','','','','','',''); L[5] = new Array('','Z','','','','','','','','','',''); L[6] = new Array('','I','','','','','','','','','',''); L[7] = new Array('','O','','P','','','','','','','',''); L[8] = new Array('','N','P','N','','','','','','','',''); L[9] = new Array('','A','','P','','','','','','','',''); L[10] = new Array('','L','','','','','','','','','',''); L[11] = new Array('R','E','S','I','S','T','O','R','E','','',''); C = new Array(); C[0] = new Array(1,2,0,0,0,0,0,0,0,0,0,0); C[1] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[2] = new Array(0,3,0,0,0,0,0,0,0,0,0,0); C[3] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[4] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[5] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[6] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[7] = new Array(0,0,0,4,0,0,0,0,0,0,0,0); C[8] = new Array(0,5,0,0,0,0,0,0,0,0,0,0); C[9] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[10] = new Array(0,0,0,0,0,0,0,0,0,0,0,0); C[11] = new Array(6,0,0,0,0,0,0,0,0,0,0,0); G = new Array(); G[0] = new Array('','','','','','','','','','','',''); G[1] = new Array('','','','','','','','','','','',''); G[2] = new Array('','','','','','','','','','','',''); G[3] = new Array('','','','','','','','','','','',''); G[4] = new Array('','','','','','','','','','','',''); G[5] = new Array('','','','','','','','','','','',''); G[6] = new Array('','','','','','','','','','','',''); G[7] = new Array('','','','','','','','','','','',''); G[8] = new Array('','','','','','','','','','','',''); G[9] = new Array('','','','','','','','','','','',''); G[10] = new Array('','','','','','','','','','','',''); G[11] = new Array('','','','','','','','','','','',''); A = new Array(); A[1]='serve a collegare due stadi amplificatori a transistor'; A[3]='terminale del transistor attraversato dalla corrente più grande'; A[5]='tipo di bjt nel quale la corrente esce dall\'emettitore'; A[6]='posto in serie al collettore in un\'amplificatore a bjt ad emettitore comune'; D = new Array(); D[2]='lo è un\'amplificatore con GBP=1MHz'; D[4]='tipo di transistore nel quale la corrente entra nell\'emettitore'; function StartUp(){ BuildExercise(); WriteFeedback(Instructions); DisplayExercise(); } function CheckAnswers(){ var AllCorrect = true; var TotLetters = 0; var CorrectLetters = 0; //Check each letter for (var i=0; i'; } Output += YourScoreIs + ' ' + Score + '%.
'; if (AllCorrect == false){ Output += '
' + Incorrect; Penalties++; } BuildExercise(); WriteFeedback(Output); DisplayExercise(); } function DoNothing(){} function Blank(){ return '

'; } //--> //]]>

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