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amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">[[https://www.physics.wisc.edu/lectdemo|Lecture Demonstrations]] || |
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| ''PIRA classification 5J'' ||<#dddddd>Grayed Demos are either not available or haven't been built yet. || |
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| ''PIRA classification 5J'' | |
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| ||<#dddddd> Grayed Demos are either not available or haven't been built yet.|| | |
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| ||<:10%>'''PIRA #'''||<:>'''Demonstration Name'''||<:60%>'''Abstract'''|| || 5J10.10 || inductor assortment || Sample inductors are shown. || || 5J10.20 || back EMF - light bulb || || || 5J10.20 || back EMF || A 20 Henry inductor energized by a 12 V battery lights a 120 V 7 1/2 W lamp when the circuit is opened. || || 5J10.20 || back EMF || When current is cut off in the primary, a meter in parallel shows an induction current in the primary. || || 5J10.20 || self inductance || Open the switch of a large electromagnet with a lamp in parallel. || || 5J10.20 || inductance spark || Disconnect a 6 V battery from a 2000 turn coil to get a spark, enhance with an iron core. || || 5J10.21 || back EMF || A 4.5 V battery lights a neon bulb when the current to an inductor is disrupted. || || 5J10.22 || neon back EMF || The coils of a electromagnet are connected in parallel with a neon bulb. || || 5J10.23 || neon self induction || A neon lamp across an inductor will glow on one side during charging and will flash on the other when the current is interrupted. || || 5J10.25 || inductance and the wheatstone bridge || The galvanometer in a Wheatstone bridge is connected after an inductor has reach steady state or at the same time the current is started in the inductor. || || 5J10.26 || simulating ideal self-induction || A nulling circuit compensates for the steady state current in a coil. || || 5J10.30 || back EMF - spark || || || 5J10.30 || back emf spark || A one inch spark is produced when the switch of a large electromagnet is opened. || || 5J10.32 || electromagnetic inertia || A spark will jump across an almost closed loop of wire rather than go around when attached to a Leyden jar. || |
||<10% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''PIRA #''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Demonstration Name''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Subsets''' ||<60% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''Abstract''' || ||5J10.10 ||inductor assortment ||pira500 ||Sample inductors are shown. || ||5J10.20 ||back EMF - light bulb ||pira500 ||Open the switch of a large electromagnet with a lamp in parallel. || ||<#cccccc>5J10.21 ||<#cccccc>back EMF ||<#cccccc> ||<#cccccc>A 4.5 V battery lights a neon bulb when the current to an inductor is disrupted. || ||<#cccccc>5J10.22 ||<#cccccc>neon back EMF ||<#cccccc> ||<#cccccc>The coils of a electromagnet are connected in parallel with a neon bulb. || ||<#cccccc>5J10.23 ||<#cccccc>neon self induction ||<#cccccc> ||<#cccccc>A neon lamp across an inductor will glow on one side during charging and will flash on the other when the current is interrupted. || ||<#cccccc>5J10.25 ||<#cccccc>inductance and the wheatstone bridge ||<#cccccc> ||<#cccccc>The galvanometer in a Wheatstone bridge is connected after an inductor has reach steady state or at the same time the current is started in the inductor. || ||<#cccccc>5J10.26 ||<#cccccc>simulating ideal self-induction ||<#cccccc> ||<#cccccc>A nulling circuit compensates for the steady state current in a coil. || ||5J10.30 ||back EMF spark ||pira1000 ||A one inch spark is produced when the switch of a large electromagnet is opened. || ||<#cccccc>5J10.32 ||<#cccccc>electromagnetic inertia ||<#cccccc> ||<#cccccc>A spark will jump across an almost closed loop of wire rather than go around when attached to a Leyden jar. || |
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| ||<:10%>'''PIRA #'''||<:>'''Demonstration Name'''||<:60%>'''Abstract'''|| || 5J20.10 || RL time constant on scope || Show the RL time constant on a scope. || || 5J20.10 || LR time constant on scope || The current and voltage of an slow time constant LR circuit are displayed on a dual trace storage oscilloscope. || || 5J20.10 || L/R time constant || A plug in circuit board with a make before break switch for showing slow RL time constants on the oscilloscope. || || 5J20.10 || RL time constant || The RL time constant is shown on a scope. || || 5J20.11 || time constant of an inductive cir. || Compare the time constant of an inductor using different cores on an oscilloscope. || || 5J20.20 || lamps in series or parallel with ind. || Hook light bulbs in series with a large electromagnet. || || 5J20.20 || current in an inductive circuit || Light bulbs across and in series with a large electromagnet show the current in an inductive circuit. || || 5J20.20 || lamps in series and parallel on EM || Two lamps are used to indicate voltage across and current through a large electromagnet. || || 5J20.20 || series lamps on an EM || Light bulbs are hooked up in series with a large electromagnet. || || 5J20.20 || lamps in parallel with solenoid || Apply 110 V to a large solenoid with incandescent and neon lamps in parallel. The neon lamp flashes on the opposite side on discharge. || || 5J20.21 || lights in series and parallel || A circuit with a 5 H inductor has neon lamps in series and in parallel. || || 5J20.25 || inductor characteristics || A bulb in parallel with a coil does not burn when powered by dc, but does when coupled to a high frequency source. || || 5J20.30 || LR time constant || Substitute a inductor and resistor of the same R in a circuit that lights a neon bulb. || |
||<10% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''PIRA #''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Demonstration Name''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Subsets''' ||<60% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''Abstract''' || ||5J20.10 ||LR time constant on scope ||pira200 ||The current and voltage of an slow time constant LR circuit are displayed on a dual trace storage oscilloscope. || ||<#cccccc>5J20.11 ||<#cccccc>time constant of an inductive cir. ||<#cccccc> ||<#cccccc>Compare the time constant of an inductor using different cores on an oscilloscope. || ||<#cccccc>5J20.20 ||<#cccccc>lamps in series or parallel with inductor ||<#cccccc>pira200 ||<#cccccc>Lamps are used to indicate voltage across and current through a large electromagnet. If possible, do this with the iron core in and then removed. || ||<#cccccc>5J20.21 ||<#cccccc>lights in series and parallel ||<#cccccc> ||<#cccccc>A circuit with a 5 H inductor has neon lamps in series and in parallel. || ||<#cccccc>5J20.25 ||<#cccccc>inductor characteristics ||<#cccccc> ||<#cccccc>A bulb in parallel with a coil does not burn when powered by dc, but does when coupled to a high frequency source. || ||<#cccccc>5J20.30 ||<#cccccc>LR time constant ||<#cccccc> ||<#cccccc>Substitute a inductor and resistor of the same R in a circuit that lights a neon bulb. || |
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| ||<:10%>'''PIRA #'''||<:>'''Demonstration Name'''||<:60%>'''Abstract'''|| || 5J30.10 || RLC ringing || The voltages across the L and C of a slow RLC circuit are displayed on a dual trace storage oscilloscope while the circuit is energized and de energized. || || 5J30.10 || characteristic times in a parallel || Slow parallel RLC ringing on an oscilloscope. || || 5J30.10 || ringing circuit || Ringing from an RLC circuit is shown on an oscilloscope. || || 5J30.10 || characteristic times in a series RLC || Slow series RLC ringing on an oscilloscope. || || 5J30.10 || RLC ringing || A circuit for showing LC ringing on a oscilloscope. || || 5J30.11 || damped LRC oscillation || Discharge a capacitor through a series LRC circuit. Vary the capacitance and resistance. || || 5J30.15 || RLC ringing || A motor driven commutator switches a circuit from charging to discharging so RLC ringing decay can be observed on an oscilloscope. Picture, Diagram, Construction details in appendix, p.1334. || || 5J30.20 || RLC ringing || A DC circuit with RC charging and RLC discharging. || || 5J30.21 || RLC ringing || A circuit to charge a capacitor either with or without an inductance in series. || || 5J30.30 || singing arc || A ordinary carbon arc is shunted by a series LC circuit. || |
||<10% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''PIRA #''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Demonstration Name''' ||<style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; "">'''Subsets''' ||<60% style="" & quot; & amp; quot; & amp; amp; quot; & amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; amp; amp; quot;text-align:center& amp; amp; amp; amp; amp; quot; & amp; amp; amp; amp; quot; & amp; amp; amp; quot; & amp; amp; quot; & amp; quot; & quot; " ">'''Abstract''' || ||5J30.10 ||RLC ringing || ||The voltages across the L and C of a slow RLC circuit are displayed on a dual trace storage oscilloscope while the circuit is energized and de energized. || ||<#cccccc>5J30.11 ||<#cccccc>damped LRC oscillation ||<#cccccc> ||<#cccccc>Discharge a capacitor through a series LRC circuit. Vary the capacitance and resistance. || ||<#cccccc>5J30.15 ||<#cccccc>RLC ringing ||<#cccccc> ||<#cccccc>A motor driven commutator switches a circuit from charging to discharging so RLC ringing decay can be observed on an oscilloscope. Picture, Diagram, Construction details in appendix, p.1334. || ||5J30.20 ||RLC ringing || ||A DC circuit with RC charging and RLC discharging. || ||<#cccccc>5J30.21 ||<#cccccc>RLC ringing ||<#cccccc> ||<#cccccc>A circuit to charge a capacitor either with or without an inductance in series. || ||<#cccccc>5J30.30 ||<#cccccc>singing arc ||<#cccccc> ||<#cccccc>A ordinary carbon arc is shunted by a series LC circuit. || |
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| [:Demonstrations:Demonstrations] | [[Demonstrations]] |
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| [:Instructional:Home] | [[Instructional|Home]] |
E&M (5H) - Magnetic Fields and Forces |
E&M (5K) - Electromagnetic Induction |
Inductance
PIRA classification 5J
Grayed Demos are either not available or haven't been built yet. |
5J10. Self Inductance
PIRA # |
Demonstration Name |
Subsets |
Abstract |
5J10.10 |
inductor assortment |
pira500 |
Sample inductors are shown. |
5J10.20 |
back EMF - light bulb |
pira500 |
Open the switch of a large electromagnet with a lamp in parallel. |
5J10.21 |
back EMF |
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A 4.5 V battery lights a neon bulb when the current to an inductor is disrupted. |
5J10.22 |
neon back EMF |
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The coils of a electromagnet are connected in parallel with a neon bulb. |
5J10.23 |
neon self induction |
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A neon lamp across an inductor will glow on one side during charging and will flash on the other when the current is interrupted. |
5J10.25 |
inductance and the wheatstone bridge |
|
The galvanometer in a Wheatstone bridge is connected after an inductor has reach steady state or at the same time the current is started in the inductor. |
5J10.26 |
simulating ideal self-induction |
|
A nulling circuit compensates for the steady state current in a coil. |
5J10.30 |
back EMF spark |
pira1000 |
A one inch spark is produced when the switch of a large electromagnet is opened. |
5J10.32 |
electromagnetic inertia |
|
A spark will jump across an almost closed loop of wire rather than go around when attached to a Leyden jar. |
5J20. LR Circuits
PIRA # |
Demonstration Name |
Subsets |
Abstract |
5J20.10 |
LR time constant on scope |
pira200 |
The current and voltage of an slow time constant LR circuit are displayed on a dual trace storage oscilloscope. |
5J20.11 |
time constant of an inductive cir. |
|
Compare the time constant of an inductor using different cores on an oscilloscope. |
5J20.20 |
lamps in series or parallel with inductor |
pira200 |
Lamps are used to indicate voltage across and current through a large electromagnet. If possible, do this with the iron core in and then removed. |
5J20.21 |
lights in series and parallel |
|
A circuit with a 5 H inductor has neon lamps in series and in parallel. |
5J20.25 |
inductor characteristics |
|
A bulb in parallel with a coil does not burn when powered by dc, but does when coupled to a high frequency source. |
5J20.30 |
LR time constant |
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Substitute a inductor and resistor of the same R in a circuit that lights a neon bulb. |
5J30. RLC Circuits-DC
PIRA # |
Demonstration Name |
Subsets |
Abstract |
5J30.10 |
RLC ringing |
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The voltages across the L and C of a slow RLC circuit are displayed on a dual trace storage oscilloscope while the circuit is energized and de energized. |
5J30.11 |
damped LRC oscillation |
|
Discharge a capacitor through a series LRC circuit. Vary the capacitance and resistance. |
5J30.15 |
RLC ringing |
|
A motor driven commutator switches a circuit from charging to discharging so RLC ringing decay can be observed on an oscilloscope. Picture, Diagram, Construction details in appendix, p.1334. |
5J30.20 |
RLC ringing |
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A DC circuit with RC charging and RLC discharging. |
5J30.21 |
RLC ringing |
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A circuit to charge a capacitor either with or without an inductance in series. |
5J30.30 |
singing arc |
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A ordinary carbon arc is shunted by a series LC circuit. |