// Numbas version: finer_feedback_settings {"name": "Characteristics of a toriodal solenoid", "extensions": [], "custom_part_types": [], "resources": [], "navigation": {"allowregen": true, "showfrontpage": false, "preventleave": false, "typeendtoleave": false}, "question_groups": [{"pickingStrategy": "all-ordered", "questions": [{"name": "Characteristics of a toriodal solenoid", "tags": ["energy", "field", "flux", "inductance", "mag", "reluctance", "solenoid", "tut2"], "metadata": {"description": "A series of calculations and formulae for the characteristics of a toriodal solenoid operating as an inductor.", "licence": "All rights reserved"}, "statement": "

A toriodal solenoid is constructed to act as an inductor.  It has the following properties:

\n\n

When entering formulae use only the above symbols along with the symbol for permeability of free space, $\\mu_0$ (mu_0), the magnetic flux, $\\phi$ (phi), the magnetic flux density, $B$, the magnetising field strength, $H$, the flux linkage, $\\Psi$ (psi), the inductance, $L$, the reluctance, $S$, and the stored energy, $U$.  In each case use the simplest formula based upon the quantity from the previous part.

\n

When providing numerical answers you may express them using scientific notation.  Express values to four significant figures and use the values of physical constants as provided in the course notes.

", "advice": "

This question is an example of a series of linked quantities. 

\n

${\\rm MMF}= N i=${mmf} Amps

\n

$|H|=\\displaystyle{{\\rm MMF}\\over {\\rm path~length}}=\\displaystyle{Ni\\over2\\pi R}=${Hfield} A/m

\n

$|B|=\\mu_0\\mu_r|H|=\\mu|H|=${Bfield} T

\n

$\\phi=B A=${phi} Wb

\n

$\\Psi = N \\phi=${Psi} Wb

\n

$L = \\displaystyle{\\Psi\\over i}=${inductance} Henrys

\n

$\\text{Stored energy}={1\\over2}Li^2=${energy} Joules

\n

The field that a given ferro-magnetic material can amplify is limited to its saturation value.  Raising the current beyond this point does not increase the flux density beyond the base-line $\\mu_0$ level.  If we know the saturation field, $B_{\\rm sat}$, then we can determine the current since we can re-arrange the formulae above to give

\n

$B_{\\rm sat}=\\mu H=\\displaystyle{\\mu N i_{\\rm sat}\\over 2\\pi R}\\Rightarrow i_{\\rm sat}=\\displaystyle{2\\pi RB_{\\rm sat}\\over \\mu_0 \\mu_r N}=${isat} Amps

\n

The flux-linkage rises up to the point of saturation, so a current increase beyond this point simply reduces the inductance (since $L=\\Psi_{\\rm sat}/i$).

", "rulesets": {}, "extensions": [], "variables": {"mmf": {"name": "mmf", "group": "Ungrouped variables", "definition": "turns * current", "description": "

Calculated MMF, Amps.

", "templateType": "anything"}, "xsection": {"name": "xsection", "group": "Ungrouped variables", "definition": "pi * rcore^2", "description": "

Cross-sectional area of core (m^2).

", "templateType": "anything"}, "rcore": {"name": "rcore", "group": "Ungrouped variables", "definition": "random(0.01..0.02#0.01)", "description": "

Core radius in metres.

", "templateType": "anything"}, "rring": {"name": "rring", "group": "Ungrouped variables", "definition": "rcore+random(0.02..0.03#0.01)", "description": "

Ring radius in metres.

", "templateType": "anything"}, "Bfield": {"name": "Bfield", "group": "Ungrouped variables", "definition": "mur * mu0 * Hfield", "description": "", "templateType": "anything"}, "reluctance": {"name": "reluctance", "group": "Ungrouped variables", "definition": "turns^2/inductance", "description": "

Calculated inductance (H^-1)

", "templateType": "anything"}, "phi": {"name": "phi", "group": "Ungrouped variables", "definition": "Bfield*xsection", "description": "

Calculated flux (T).

", "templateType": "anything"}, "energy": {"name": "energy", "group": "Ungrouped variables", "definition": "0.5*inductance*current^2", "description": "

Calculated stored energy (J).

", "templateType": "anything"}, "turns": {"name": "turns", "group": "Ungrouped variables", "definition": "random(300..500#20)", "description": "

Number of turns in the solenoid.

", "templateType": "anything"}, "psi": {"name": "psi", "group": "Ungrouped variables", "definition": "turns * phi", "description": "

Flux linkage, Wb

", "templateType": "anything"}, "Bsat": {"name": "Bsat", "group": "Ungrouped variables", "definition": "Bfield+random(0.8..1.2#0.1)", "description": "

Flux density at which the ferrite core 'saturates' in Tesla.

", "templateType": "anything"}, "current": {"name": "current", "group": "Ungrouped variables", "definition": "random(0.5..1.5#0.1)", "description": "

Current in the coil (Amps)

", "templateType": "anything"}, "mu": {"name": "mu", "group": "Ungrouped variables", "definition": "mur * mu0", "description": "

Total permeability.

", "templateType": "anything"}, "mu0": {"name": "mu0", "group": "Ungrouped variables", "definition": "pi*4*10^(-7)", "description": "

Permeability of free space, H/m

", "templateType": "anything"}, "inductance": {"name": "inductance", "group": "Ungrouped variables", "definition": "psi/current", "description": "

Calculated inductance (Henry)

", "templateType": "anything"}, "mur": {"name": "mur", "group": "Ungrouped variables", "definition": "random(80..160#10)", "description": "

Relative permeability of the core.

", "templateType": "anything"}, "isat": {"name": "isat", "group": "Ungrouped variables", "definition": "Bsat * 2 * pi * rring/(mu *turns)", "description": "

Calculated current to achieve saturated B-field (Amps)

", "templateType": "anything"}, "Hfield": {"name": "Hfield", "group": "Ungrouped variables", "definition": "mmf / (2 pi rring)", "description": "

Calculated H-field, A/m.

", "templateType": "anything"}}, "variablesTest": {"condition": "", "maxRuns": 100}, "ungrouped_variables": ["Bfield", "Bsat", "current", "energy", "Hfield", "inductance", "isat", "mmf", "mu", "mu0", "mur", "phi", "psi", "rcore", "reluctance", "rring", "turns", "xsection"], "variable_groups": [], "functions": {}, "preamble": {"js": "", "css": ""}, "parts": [{"type": "gapfill", "useCustomName": true, "customName": "MMF", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the MMF is ${\\rm MMF} =$[[0]].

\n

The value of the MMF is [[1]] Amps.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "MMF formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "N i", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "n", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "MMF value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "mmf*0.95", "maxValue": "mmf*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Magnetising field strength", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the magnetising field strength in the core is $|H| =$[[0]].

\n

The value of $|H|$ is [[1]] Amps/m.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "H formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "N i / (2 pi R)", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "n", "value": ""}, {"name": "r", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "H value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "Hfield*0.95", "maxValue": "Hfield*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Magnetic flux density", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the magnetic flux density in the core is $|B| =$[[0]].

\n

The value of $|B|$ is [[1]] Tesla.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "B formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "mu_0 mu_r H", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "h", "value": ""}, {"name": "mu_0", "value": ""}, {"name": "mu_r", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "B value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "Bfield*0.95", "maxValue": "Bfield*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Magnetic flux", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the magnetic flux in the core is $\\phi =$[[0]].

\n

The value of $\\phi$ is [[1]] Wb.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "$\\phi$ formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "B A", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "a", "value": ""}, {"name": "b", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "$\\phi$ value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "phi*0.95", "maxValue": "phi*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Flux linkage", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the flux linkage with the coil is $\\Psi =$[[0]].

\n

The value of $\\Psi$ is [[1]] Wb.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "$\\Psi$ formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "phi N", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "n", "value": ""}, {"name": "phi", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "$\\Psi$ value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "psi*0.95", "maxValue": "psi*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Inductance", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the solenoid inductance is $L =$[[0]].

\n

The value of $L$ is [[1]] Henrys.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "Inductance formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "psi / i", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "psi", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "L value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "inductance*0.95", "maxValue": "inductance*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Reluctance", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the solenoid reluctance is $S =$[[0]].

\n

The value of $S$ is [[1]] H$^{-1}$.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "Reluctance formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "N^2/L", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "l", "value": ""}, {"name": "n", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "S value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "reluctance*0.95", "maxValue": "reluctance*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Stored energy", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The mathematical expression for the energy stored by the solenoid is $U =$[[0]].

\n

The value of $U$ is [[1]] Joules.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "Energy formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "1/2 L i^2", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "l", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "Energy value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "energy*0.95", "maxValue": "energy*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "gapfill", "useCustomName": true, "customName": "Current for saturated field", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

The ferrite core saturates at a flux density of {Bsat} T.

\n

Determine the mathematical expression for the current that would produce this $B$-field: $i_{\\rm sat} =$[[0]].

\n

The value of $i_{\\rm sat}$ is [[1]] Amps.

", "gaps": [{"type": "jme", "useCustomName": true, "customName": "Current formula", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "answer": "B 2 pi R /( mu_0 mu_r N)", "showPreview": true, "checkingType": "absdiff", "checkingAccuracy": 0.001, "failureRate": 1, "vsetRangePoints": 5, "vsetRange": [0, 1], "checkVariableNames": true, "singleLetterVariables": true, "allowUnknownFunctions": true, "implicitFunctionComposition": false, "valuegenerators": [{"name": "b", "value": ""}, {"name": "mu_0", "value": ""}, {"name": "mu_r", "value": ""}, {"name": "n", "value": ""}, {"name": "r", "value": ""}]}, {"type": "numberentry", "useCustomName": true, "customName": "Current value", "marks": 1, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "minValue": "isat*0.95", "maxValue": "isat*1.05", "correctAnswerFraction": false, "allowFractions": false, "mustBeReduced": false, "mustBeReducedPC": 0, "precisionType": "sigfig", "precision": "4", "precisionPartialCredit": 0, "precisionMessage": "You have not given your answer to the correct precision.", "strictPrecision": false, "showPrecisionHint": false, "notationStyles": ["plain", "en", "si-en", "scientific"], "correctAnswerStyle": "plain"}], "sortAnswers": false}, {"type": "1_n_2", "useCustomName": true, "customName": "Post saturation inductance", "marks": 0, "scripts": {}, "customMarkingAlgorithm": "", "extendBaseMarkingAlgorithm": true, "unitTests": [], "showCorrectAnswer": true, "showFeedbackIcon": true, "variableReplacements": [], "variableReplacementStrategy": "originalfirst", "nextParts": [], "suggestGoingBack": false, "adaptiveMarkingPenalty": 0, "exploreObjective": null, "prompt": "

If the current is increased above the value that produces the saturated $B$-field, what is the impact upon the inductance?

", "minMarks": 0, "maxMarks": 0, "shuffleChoices": true, "displayType": "radiogroup", "displayColumns": "3", "showCellAnswerState": true, "choices": ["It continues to increase.", "It saturates (it remains constant)", "It starts to decrease."], "matrix": [0, 0, "1"], "distractors": ["No - the $\\Psi$ is a maximum and the inductance is inversely proportional to $i$.", "No - the $\\Psi$ is a maximum and the inductance is inversely proportional to $i$.", "Yes, because $\\Psi$ is a maximum and the inductance is inversely proportional to $i$."]}], "partsMode": "all", "maxMarks": 0, "objectives": [], "penalties": [], "objectiveVisibility": "always", "penaltyVisibility": "always", "type": "question", "contributors": [{"name": "Jon Goss", "profile_url": "https://numbas.mathcentre.ac.uk/accounts/profile/3925/"}]}]}], "contributors": [{"name": "Jon Goss", "profile_url": "https://numbas.mathcentre.ac.uk/accounts/profile/3925/"}]}