qu.1.topic=Transient Response@

qu.1.1.mode=Inline@
qu.1.1.name=RL Response@
qu.1.1.comment=@
qu.1.1.editing=useHTML@
qu.1.1.hint.1=<p>
	The inductor current after the switch closes is&nbsp;<math xmlns="http://www.w3.org/1998/Math/MathML"><mrow><mi mathvariant="italic" >i</mi><mfenced open="(" close=")" separators=","><mrow><mi mathvariant="italic" >t</mi></mrow></mfenced><mo>=</mo><mn>0.2</mn><mo>⋅</mo><mfenced open="(" close=")" separators=","><mrow><mn>1</mn><mo>−</mo><mn>exp</mn><mfenced open="(" close=")" separators=","><mrow><mo>−</mo><mn>1.8</mn><mo>⋅</mo><mi mathvariant="italic" >t</mi></mrow></mfenced></mrow></mfenced></mrow><mspace width="3pt"/></math>​</p>
@
qu.1.1.hint.1.name=Inductor Current@
qu.1.1.hint.1.description=@
qu.1.1.hint.1.penalty=0.0@
qu.1.1.hint.1.modified=1377114965815@
qu.1.1.solution=@
qu.1.1.algorithm=@
qu.1.1.uid=efeec4c2-54f5-479d-9f4f-fa9aaca85dad@
qu.1.1.privacy=0@
qu.1.1.allowRepublish=false@
qu.1.1.description=@
qu.1.1.difficulty=0.0@
qu.1.1.modifiedBy=b0149390-cfb9-4d4e-9e72-e48c7343108f@
qu.1.1.school=7f01c0fb-116a-4f9d-bafc-e91de0b62105@
qu.1.1.attributeAuthor=true@
qu.1.1.numberOfAttempts=1@
qu.1.1.numberOfAttemptsLeft=1@
qu.1.1.numberOfTryAnother=0@
qu.1.1.numberOfTryAnotherLeft=0@
qu.1.1.weighting=1@
qu.1.1.numbering=alpha@
qu.1.1.part.1.name=sro_id_1@
qu.1.1.part.1.numberOfTryAnother=0@
qu.1.1.part.1.editing=useHTML@
qu.1.1.part.1.question=(Unset)@
qu.1.1.part.1.difficulty=0.0@
qu.1.1.part.1.attributeAuthor=false@
qu.1.1.part.1.mode=Formula@
qu.1.1.part.1.allowRepublish=false@
qu.1.1.part.1.numberOfAttemptsLeft=1@
qu.1.1.part.1.numberOfTryAnotherLeft=0@
qu.1.1.part.1.answer=8+exp(-1.8*t)@
qu.1.1.part.1.numberOfAttempts=1@
qu.1.1.question=<p>	Before the switch closes, the circuit is in a steady state. Determine the voltage across the specified resistor after the switch has closed.</p><p>	&nbsp;</p><p style="text-align: center;">	<img alt="" src="__BASE_URI__TR-4.png" style="width: 372px; height: 208px;"></p><p>	&nbsp;</p><p>	v(t) =&nbsp;<1></p>@

qu.1.2.mode=Inline@
qu.1.2.name=Capacitor Voltage@
qu.1.2.comment=@
qu.1.2.editing=useHTML@
qu.1.2.solution=@
qu.1.2.algorithm=@
qu.1.2.uid=7e14429f-5b5f-4245-af2a-9c95ec8af657@
qu.1.2.privacy=0@
qu.1.2.allowRepublish=false@
qu.1.2.description=@
qu.1.2.difficulty=-1.0@
qu.1.2.modifiedBy=b0149390-cfb9-4d4e-9e72-e48c7343108f@
qu.1.2.school=7f01c0fb-116a-4f9d-bafc-e91de0b62105@
qu.1.2.attributeAuthor=true@
qu.1.2.numberOfAttempts=1@
qu.1.2.numberOfAttemptsLeft=1@
qu.1.2.numberOfTryAnother=0@
qu.1.2.numberOfTryAnotherLeft=0@
qu.1.2.weighting=1,1@
qu.1.2.numbering=alpha@
qu.1.2.part.1.name=sro_id_2@
qu.1.2.part.1.answer.units=V@
qu.1.2.part.1.numStyle=thousands scientific  arithmetic@
qu.1.2.part.1.numberOfTryAnother=0@
qu.1.2.part.1.editing=useHTML@
qu.1.2.part.1.showUnits=true@
qu.1.2.part.1.question=(Unset)@
qu.1.2.part.1.difficulty=0.0@
qu.1.2.part.1.attributeAuthor=false@
qu.1.2.part.1.mode=Numeric@
qu.1.2.part.1.grading=exact_value@
qu.1.2.part.1.negStyle=minus@
qu.1.2.part.1.allowRepublish=false@
qu.1.2.part.1.numberOfAttemptsLeft=1@
qu.1.2.part.1.answer.num=6@
qu.1.2.part.1.numberOfTryAnotherLeft=0@
qu.1.2.part.1.numberOfAttempts=1@
qu.1.2.part.2.name=sro_id_1@
qu.1.2.part.2.answer.units=@
qu.1.2.part.2.numStyle=thousands scientific  arithmetic@
qu.1.2.part.2.numberOfTryAnother=0@
qu.1.2.part.2.editing=useHTML@
qu.1.2.part.2.showUnits=false@
qu.1.2.part.2.question=(Unset)@
qu.1.2.part.2.difficulty=0.0@
qu.1.2.part.2.attributeAuthor=false@
qu.1.2.part.2.mode=Numeric@
qu.1.2.part.2.grading=exact_value@
qu.1.2.part.2.negStyle=minus@
qu.1.2.part.2.allowRepublish=false@
qu.1.2.part.2.numberOfAttemptsLeft=1@
qu.1.2.part.2.answer.num=1/4.8@
qu.1.2.part.2.numberOfTryAnotherLeft=0@
qu.1.2.part.2.numberOfAttempts=1@
qu.1.2.question=<p>	The capacitor in the circuit has an initial 2 V potential before the current source is turned on at t = 2 seconds. What will the voltage across the capacitor be after a long time? What is the time constant?</p><p>	&nbsp;</p><p style="text-align: center;">	<img alt="" src="__BASE_URI__TR-3.png" style="width: 258px; height: 125px;"></p><p>	&nbsp;</p><p>	Voltage =&nbsp;<1></p><p>	Time Constant,&nbsp;<span style="font-family:times new roman,times,serif;">τ</span> =&nbsp;<2></p>@

qu.1.3.mode=Inline@
qu.1.3.name=Find the Complete Response@
qu.1.3.comment=@
qu.1.3.editing=useHTML@
qu.1.3.solution=@
qu.1.3.algorithm=$Is=range(1,6,1);
$L=decimal(1,range(0.2,4,0.1));
$R1=range(1,20,1);
$R2=range(1,10,1);
$it=maple("$Is*$R1*(1+exp(-($R1+$R2)*t/$L))/($R1+$R2)");@
qu.1.3.uid=e1c8ea4c-6e9b-46f5-b9c1-5853da4104bf@
qu.1.3.privacy=0@
qu.1.3.allowRepublish=false@
qu.1.3.description=@
qu.1.3.difficulty=1.0@
qu.1.3.modifiedBy=b0149390-cfb9-4d4e-9e72-e48c7343108f@
qu.1.3.school=7f01c0fb-116a-4f9d-bafc-e91de0b62105@
qu.1.3.attributeAuthor=true@
qu.1.3.numberOfAttempts=1@
qu.1.3.numberOfAttemptsLeft=1@
qu.1.3.numberOfTryAnother=0@
qu.1.3.numberOfTryAnotherLeft=0@
qu.1.3.weighting=1@
qu.1.3.numbering=alpha@
qu.1.3.part.1.name=sro_id_1@
qu.1.3.part.1.numberOfTryAnother=0@
qu.1.3.part.1.editing=useHTML@
qu.1.3.part.1.question=(Unset)@
qu.1.3.part.1.difficulty=0.0@
qu.1.3.part.1.attributeAuthor=false@
qu.1.3.part.1.mode=Formula@
qu.1.3.part.1.allowRepublish=false@
qu.1.3.part.1.numberOfAttemptsLeft=1@
qu.1.3.part.1.numberOfTryAnotherLeft=0@
qu.1.3.part.1.answer=$it@
qu.1.3.part.1.numberOfAttempts=1@
qu.1.3.question=<div>	Determine the complete response of the inductor's current in this circuit. The current source turns on at t = 0.</div><div>	Is = $Is</div><div>	L = $L</div><div>	R1 = $R1</div><div>	R2 = $R2</div><div>	&nbsp;</div><div style="text-align: center;">	<img alt="" src="__BASE_URI__TR-2.png" style="width: 268px; height: 204px;"></div><div>	&nbsp;</div><div>	i(t) =&nbsp;<1></div><div>	&nbsp;</div>@

qu.1.4.mode=Inline@
qu.1.4.name=Forced Response@
qu.1.4.comment=@
qu.1.4.editing=useHTML@
qu.1.4.solution=@
qu.1.4.algorithm=@
qu.1.4.uid=558fd564-4b30-47e0-8bb9-5f868325958b@
qu.1.4.privacy=0@
qu.1.4.allowRepublish=false@
qu.1.4.description=@
qu.1.4.difficulty=-1.0@
qu.1.4.modifiedBy=b0149390-cfb9-4d4e-9e72-e48c7343108f@
qu.1.4.school=7f01c0fb-116a-4f9d-bafc-e91de0b62105@
qu.1.4.attributeAuthor=true@
qu.1.4.numberOfAttempts=1@
qu.1.4.numberOfAttemptsLeft=1@
qu.1.4.numberOfTryAnother=0@
qu.1.4.numberOfTryAnotherLeft=0@
qu.1.4.weighting=1@
qu.1.4.numbering=alpha@
qu.1.4.part.1.name=sro_id_1@
qu.1.4.part.1.answer.units=V@
qu.1.4.part.1.numStyle=thousands scientific  arithmetic@
qu.1.4.part.1.numberOfTryAnother=0@
qu.1.4.part.1.editing=useHTML@
qu.1.4.part.1.showUnits=true@
qu.1.4.part.1.question=(Unset)@
qu.1.4.part.1.difficulty=0.0@
qu.1.4.part.1.attributeAuthor=false@
qu.1.4.part.1.mode=Numeric@
qu.1.4.part.1.grading=exact_value@
qu.1.4.part.1.negStyle=minus@
qu.1.4.part.1.allowRepublish=false@
qu.1.4.part.1.numberOfAttemptsLeft=1@
qu.1.4.part.1.answer.num=0@
qu.1.4.part.1.numberOfTryAnotherLeft=0@
qu.1.4.part.1.numberOfAttempts=1@
qu.1.4.question=<p>	What is the forced response voltage of the capactor?</p><p>	&nbsp;</p><p style="text-align: center;">	<img alt="" src="__BASE_URI__TR-1.png" style="width: 344px; height: 141px;"></p><p style="text-align: center;">	&nbsp;</p><p>	<1></p>@

