// Numbas version: exam_results_page_options
{"name": "Placing a point on a number line (10 bars non-integers)", "extensions": ["jsxgraph"], "custom_part_types": [], "resources": [], "navigation": {"allowregen": true, "showfrontpage": false, "preventleave": false, "typeendtoleave": false}, "question_groups": [{"pickingStrategy": "all-ordered", "questions": [{"variables": {"r": {"definition": "random(1,2,5,10)+l", "templateType": "anything", "group": "Ungrouped variables", "name": "r", "description": "<p>This is the right hand endpoint of the numberline.</p>"}, "l": {"definition": "random(-9..10#1)", "templateType": "randrange", "group": "Ungrouped variables", "name": "l", "description": "<p>This is the left hand endpoint of the numberline.</p>"}, "a": {"definition": "random(1..9)", "templateType": "anything", "group": "Ungrouped variables", "name": "a", "description": "<p>This is the distance along the number line.</p>"}}, "advice": "<p>Since each bar represents $\\displaystyle \\dfrac{\\var{r}-(\\var{l})}{10}=\\var[fractionNumbers]{(r-l)/10}$ and since the number&nbsp;$\\displaystyle A=\\var[fractionNumbers]{l+a*((r-l)/10)}$ lies $\\displaystyle A-(\\var{l})=\\var[fractionNumbers]{l+a*((r-l)/10)}-(\\var{l})=\\var[fractionNumbers]{a*((r-l)/10)}=\\var{a}\\times&nbsp;\\var[fractionNumbers]{(r-l)/10}$ from $\\displaystyle \\var{l}$, the number $\\displaystyle A=\\var[fractionNumbers]{l+a*((r-l)/10)}$ lies $\\displaystyle \\var{a}$ bar<span data-jme-visible=\"a&gt;1\">s</span> from the left as shown below.</p>\n<p>{dragpointafter()}</p>", "name": "Placing a point on a number line (10 bars non-integers)", "rulesets": {}, "functions": {"dragpointafter": {"type": "html", "language": "javascript", "parameters": [], "definition": "// set up the board\n\nJXG.Options.text.fontSize = 15; \n\nvar div = Numbas.extensions.jsxgraph.makeBoard('500px','150px',{boundingBox:[-1,3,11,-3],axis:false,showNavigation:false});\nvar board = div.board;\n\nvar l1 = board.create('line',[[0,0],[10,0]], \n                      {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l2 = board.create('line',[[1,-1],[1,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l3 = board.create('line',[[2,-1],[2,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l4 = board.create('line',[[3,-1],[3,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l5 = board.create('line',[[4,-1],[4,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l6 = board.create('line',[[5,-1],[5,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l7 = board.create('line',[[6,-1],[6,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l8 = board.create('line',[[7,-1],[7,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l9 = board.create('line',[[8,-1],[8,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l10 = board.create('line',[[9,-1],[9,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\n\nvar a1 = board.create('line',[[0,0],[0.5,0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a2 = board.create('line',[[0,0],[0.5,-0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a3 = board.create('line',[[10,0],[9.5,0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a4 = board.create('line',[[10,0],[9.5,-0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\n\nvar l = Numbas.jme.unwrapValue(scope.variables.l);\nvar r = Numbas.jme.unwrapValue(scope.variables.r);\n\nvar b = board.create('point',[-0.7,-0.4],{size:-1,name:l});\nb.setProperty({fixed:true});\nvar c = board.create('point',[9.9,-0.4],{size:-1,name:r});\nc.setProperty({fixed:true});\n\n\nvar a = Numbas.jme.unwrapValue(scope.variables.a);\n\nvar a = board.create('point',[a,0],{size:5});\na.setProperty({fixed:true});\n\nreturn div;"}, "dragpoint": {"type": "html", "language": "javascript", "parameters": [], "definition": "// set up the board\n\nJXG.Options.text.fontSize = 15; \n\nvar div = Numbas.extensions.jsxgraph.makeBoard('500px','150px',{boundingBox:[-1,3,11,-3],axis:false,showNavigation:false});\nvar board = div.board;\n\nvar l1 = board.create('line',[[0,0],[10,0]], \n                      {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l2 = board.create('line',[[1,-1],[1,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l3 = board.create('line',[[2,-1],[2,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l4 = board.create('line',[[3,-1],[3,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l5 = board.create('line',[[4,-1],[4,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l6 = board.create('line',[[5,-1],[5,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l7 = board.create('line',[[6,-1],[6,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l8 = board.create('line',[[7,-1],[7,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l9 = board.create('line',[[8,-1],[8,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar l10 = board.create('line',[[9,-1],[9,1]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\n\nvar a1 = board.create('line',[[0,0],[0.5,0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a2 = board.create('line',[[0,0],[0.5,-0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a3 = board.create('line',[[10,0],[9.5,0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\nvar a4 = board.create('line',[[10,0],[9.5,-0.5]], \n {straightFirst:false, straightLast:false, strokeWidth:2,fixed:true});\n\nvar l = Numbas.jme.unwrapValue(scope.variables.l);\nvar r = Numbas.jme.unwrapValue(scope.variables.r);\n\nvar b = board.create('point',[-0.7,-0.4],{size:-1,name:l});\nb.setProperty({fixed:true});\nvar c = board.create('point',[9.9,-0.4],{size:-1,name:r});\nc.setProperty({fixed:true});\n\nvar a = board.create('point',[5,2],{size:5});\n\na.on('drag',function(){\n  Numbas.exam.currentQuestion.parts[0].gaps[0].display.studentAnswer(a.X());  \n});\n\nreturn div;"}}, "statement": "<p>This question asks you to place a point on a number line.</p>", "parts": [{"type": "gapfill", "prompt": "<p>Place the point $\\displaystyle A=\\var[fractionNumbers]{l+a*((r-l)/10)}$ on the number line below by dragging it.</p>\n<p>Note that the line starts at the number $\\displaystyle \\var{l}$ and finishes at the number $\\displaystyle \\var{r}$. In addition please disregard the numbers that appear when you drag the point $A$, these refer to an invisible grid that enables the program to calculate where you drag the point to.</p>\n<p>The point should finish up on a vertical bar, the vertical position of the point does not matter and your answer will default to the nearest vertical bar.</p>\n<p>{dragpoint()}</p>", "showCorrectAnswer": true, "scripts": {}, "marks": 0, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "gaps": [{"type": "numberentry", "correctAnswerFraction": false, "showCorrectAnswer": true, "variableReplacementStrategy": "originalfirst", "maxValue": "a+0.5", "marks": 1, "minValue": "a-0.5", "mustBeReducedPC": 0, "scripts": {}, "allowFractions": false, "mustBeReduced": false, "variableReplacements": [], "notationStyles": ["plain", "en", "si-en"], "correctAnswerStyle": "plain", "showFeedbackIcon": true}], "showFeedbackIcon": true}], "tags": [], "metadata": {"licence": "Creative Commons Attribution 4.0 International", "description": "<p>This question asks you to place a point on a number line. The number is not an integer.</p>"}, "variablesTest": {"maxRuns": "100", "condition": "floor(l+a*((r-l)/10))<>(l+a*((r-l)/10))"}, "variable_groups": [], "preamble": {"js": "", "css": ""}, "extensions": ["jsxgraph"], "ungrouped_variables": ["l", "r", "a"], "type": "question", "contributors": [{"name": "Anthony Brown", "profile_url": "https://numbas.mathcentre.ac.uk/accounts/profile/799/"}]}]}], "contributors": [{"name": "Anthony Brown", "profile_url": "https://numbas.mathcentre.ac.uk/accounts/profile/799/"}]}