Electricity and Magnetism. A solutions manual to accompany this text is available for free download. Solution Manual For E&M TIPERs Electricity & Magnetism Tasks by Hieggelke Ranking Task Sample II Each ranking task will have a number of situations, or variations of a situation, that have varying values for two or three variables. Your task is to rank these variations on a specified basis. After ranking the items, you will be asked to explain.
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A workbook for electricity and magnetism in introductory physics courses.TIPERs (Tasks Inspired by Physics Education Research) is themost complete set of conceptual exercises (tasks) available for electricity and magnetism. This workbook contains OVER 300 tasks that focus on conceptual understanding and reinforce the sense that the ideas of science have coherence and power that extends beyond the facts and equations.
Solution Manual for E&M TIPERs Electricity & Magnetism Tasks Edition by Hieggelke Maloney OKuma and Kanim
I. ELECTROSTATICS
1. Ranking Tasks (RT) Catia v5 import for autocad cracked.
2. https://bestbfile677.weebly.com/keep-note-1-0-1.html. Comparison Tasks (CT) How to share system sound on skype for mac.
3. Qualitative Reasoning Tasks (QRT)
4. Linked Multiple Choice Tasks (LMCT)
5. Conflicting Contention Tasks (CCT)
6. Changing Representation Tasks (CRT)
7. Bar Chart Tasks (BCT)
8. What, if anything, is Wrong Tasks (WWT)
9. Troubleshooting Tasks (TT)
10. Predict and Explain Tasks (PET)
11. Working Backwards Tasks (WBT)
II. MAGNETISM
1. Ranking Tasks (RT)
2. Comparison Tasks (CT)
3. Qualitative Reasoning Tasks (QRT)
4. Linked Multiple Choice Tasks (LMCT)
5. Conflicting Contentions Tasks (CCT)
6. Changing Representations Tasks (CRT)
7. Bar Chart Tasks (BCT)
8. What, if anything, is Wrong Tasks (WWT)
9. Troubleshooting Tasks (TT)
10. Predict and Explain Tasks (PET)
11. Working Backwards Tasks (WBT)
Language: English
ISBN-10: 0131854992
ISBN-13: 978-0131854994 9780131854994
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solution manual for e&m tipers electricity & magnetism tasks solutions
e&m tipers electricity & magnetism tasks pdf solution manual
e&m tipers electricity & magnetism tasks solution manual
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Solution Manual For E and M TIPERs Electricity and Magnetism Tasks by Hieggelke
A workbook for electricity and magnetism in introductory physics courses.TIPERs (Tasks Inspired by Physics Education Research) is themost complete set of conceptual exercises (tasks) available for electricity and magnetism. This workbook contains OVER 300 tasks that focus on conceptual understanding and reinforce the sense that the ideas of science have coherence and power that extends beyond the facts and equations.
ELECTROSTATICS
Ranking Tasks (RT)
eT1-RT1: Charged Insulating Blocks-Charge Density
eT1-RT2: Breaking a Charged Insulating Block-Charge Density
eT1-RT3: Charged Insulating Blocks-Charge
eT1-RT4: Pairs of Connected Charged Conductors-Charge
eT1-RT5: Collection of Six Charged Connected Conductors-Charge
eT1-RT6: Pairs of Outside and Inside Connected Charged Conductors-Charge
eT1-RT7: Charged Rod and Electroscope-Excess charge
eT3-RT1: Three Dimensional Locations in a Constant Electric Potential-Force
eT3-RT2: Charges Arranged in a Triangle-Force
eT3-RT3: Charges in a Plane-Force
eT3-RT4: Two Charges-Force
eT3-RT5: Two and Three Charges in a Line-Force
eT3-RT6: Charged Rods and Point Charges-Force
eT3-RT7: Charged Curved Rod-Force
eT3-RT8: Three Dimensional Locations Near a Point Charge-Electric Force
eT3-RT9: Sphere and a Point Charge-Force
eT3-RT10: Three Dimensional Locations in a Uniform Electric Field-Electric Force
eT4-RT1: Two Charged Objects-Acceleration
eT4-RT2: Proton in Magnetic and Electric Fields-Acceleration
eT4-RT3: Charges Between Charged Parallel Plates-Speed
eT5-RT1: Charged Insulating Sheets-Electric Field
eT5-RT2: Changing Electric Force on an Electron-Electric Field
eT5-RT3: Charged Solid Conducting Sphere-Electric Field
eT5-RT4: Three Dimensional Locations in a Constant Electric Potential-Field
eT5-RT5: Spherical Conducting Shell-Electric Field
eT5-RT6: Six Charges in Three Dimensions-Electric Field
eT5-RT7: Potential Near Charges-Electric Field
eT5-RT8: Three Charges in a Line-Electric Field
eT5-RT9: Potential vs Position Graphs-Electric Field
eT5-RT10: Potential vs Position Graphs-Electric Field
eT5-RT11: Potential vs Position Graph II-Electric Field
eT5-RT12: Point Charges in Two Dimensions-Electric Field
eT5-RT13: Electric Field Lines-Electric Field
eT5-RT14: Charged Curved Rod-Electric Field
eT5-RT15: Three Dimensional Locations Within a Uniform Electric Field-Field
eT5-RT16: Point Charge inside an Insulating Shell-Electric Field
eT5-RT17: Point Charge inside a Conducting Shell-Electric Field
eT5-RT18: Equipotential Surfaces-Electric Field
eT6-RT1: Three Dimensional Locations in a Constant Electric Potential-Work
eT6-RT2: Three Charge System-Electric Potential Energy
eT6-RT3: Electron in Equipotential Surfaces-Kinetic Energy Change
eT6-RT4: Charges and Equipotentials-Work
eT8-RT1: Four Charges in Two Dimensions-Electric Potential
eT8-RT2: Points Near a Pair of Equal Opposite Charges-Potential
eT8-RT3: Pairs of Charged Connected Conductors-Electric Potential
eT8-RT4: Charged Curved Rod-Electric Potential
eT8-RT5: Two Large Charged Parallel Sheets-Potential Difference
eT8-RT6: Three Dimensional Locations Near a Point Charge-Electric Potential
eT8-RT7: Three Dimensional Locations in a Uniform Electric Field-Potential
eT8-RT8: Six Charges in Three Dimensions-Electric Potential
eT8-RT9: Spherical Conducting Shell-Electric Potential
eT8-RT10: Systems of Eight Point Charges-Potential
eT9-RT1: Point Charges-Flux
eT9-RT2: Charged Insulator and Conductor-Flux
eT9-RT3: Insulator and Conductor-Flux
eT9-RT4: Cubes in Electric Fields-Flux
eT10-RT1: Charged Rod Near a Suspended Bar Magnet-Torque
Comparison Tasks (CT)
eT1-CT1: Charges in Electric Field-Charge
eT3-CT1: Straight Charged Rod and Two Point Charges-Force
eT4-CT1: Cart Approaching Sphere-Distance
eT5-CT1: Potential Near Charges-Electric Field
eT5-CT2: Potential vs Position Graph II-Electric Field
eT6-CT1: Three Charge System-Electric Potential Energy and Work Done
eT8-CT1: Points Near Pair of Charges-Potential Difference
Qualitative Reasoning Tasks (QRT)
eT1-QRT1: Breaking A Charged Insulating Block-Charge and Charge Density
eT1-QRT2: Charged Insulating Blocks-Original Block
eT1-QRT3: Charged Insulating Blocks-Charge and Charge Density
eT1-QRT4: Charged Insulating Rod-Charge and Charge Density
eT1-QRT5: Three Conducting Spheres-Charge
eT3-QRT1: Two Unequal Charges-Force
eT3-QRT2: Three Charges in a Line-Force
eT3-QRT3: Three Charges in a Line-Force
eT3-QRT4: Three Charges in a Line-Force
eT3-QRT5: Straight Charged Rod and Two Point Charges-Force
eT3-QRT6: Charge near Equipotential Surfaces-Force Direction
eT3-QRT7: Force Direction on Charges in an Equilateral Triangle-Force
eT3-QRT8: Force Direction on Charges in a Right Triangle-Force
eT3-QRT9: Force Direction on Charges in a Square-Force
eT3-QRT10: Two Charges-Force on Each
eT6-QRT1: Two Charged Objects-Work and Energy
eT5-QRT1: Potential vs Position Graphs-Electric Field
eT5-QRT2: Charged Insulating Rods-Electric Field
eT10-QRT1: Graph of Charge vs Electric Potential-Capacitance
eT9-QRT1: Charge Within a Hollow Conductor-Flux
Linked Multiple Choice Tasks (LMCT)
eT3-LMCT1: Charges Arranged in a Triangle-Force
eT3-LMCT2: System of Charges-Electric Force on a Charge
eT3-LMCT3: Straight Charged Rod and Two Point Charges-Force
eT3-LMCT4: Sphere and a Point Charge-Force
eT3-LMCT5: Positive Charge in a Uniform Electric Field-Electric Force
eT3-LMCT6: Potential vs Position Graph II-Force
eT5-LMCT1: Charged Insulating Sheets-Electric Field
eT7-LMCT1: Six Charges in Three Dimensions-Field and Potential at Origin
eT7-LMCT2: Four Charges in Two Dimensions-Field and Potential
eT8-LMCT1: Three Point Charge System-Electric Potential
eT10-LMCT1: Two Parallel Plates-Capacitance
Conflicting Contention Tasks (CCT)
eT1-CCT1: Breaking a Charged Insulating Block-Charge Density
eT1-CCT2: Charged Insulators Connected with a Switch-Charge
eT1-CCT3: Charged Sheet-Enclosed Charge
eT3-CCT1: Electron in a Uniform Electric Field-Electric Force
eT3-CCT2: Two Charges-Force
eT3-CCT3: Sphere and a Point Charge-Force
eT3-CCT4: Curved Charged Rod and Two Point Charges-Force
eT3-CCT5: Pairs of Charged Conductors-Force
eT3-CCT6: Conducting Cube Between Point Charges-Force
eT4-CCT1: Cart Approaching Sphere-Distance
eT6-CCT1: Electric Force on a Proton-Electric Field
eT6-CCT2: Electric Potential vs Distance Graph II-Electric Field
eT5-CCT3: Three Dimensional Locations in a Constant Electric Potential-Field
eT5-CCT4: Three Charges in a Line-Electric Field
eT5-CCT5: Airplane Flying Between Two Charged Clouds-Electric Field
eT5-CCT6: Two Charged Spheres-Electric Field
eT5-CCT7: Potential near Charges-Electric Field
eT5-CCT8: Point Charge in a Conducting Shell-Electric Field
eT5-CCT9: Field Outside a Sphere with a Cavity-Electric Field
eT6-CCT1: Systems of Point Charges-Work to Assemble
eT8-CCT1: Two Charged Spheres-Electric Potential
eT9-CCT1: Gaussian Cube Near a Charge-Flux
eT9-CCT2: Charges Inside Gaussian Sphere-Electric Flux and Electric Field
eT10-CCT1: Charged Rod Near a Suspended Bar Magnet-Rotation
eT10-CCT2: Charged Rod and Electroscope-Deflection
Changing Representation Tasks (CRT)
eT5-CRT1: Electric Force on an Electron-Electric Field
eT3-CRT1: Charges and Equipotentials-Force
eT5-CRT2: Potential vs Position Graph II-Electric Field Direction
eT5-CRT3: Potential vs Position Graph-Electric Field Graph
eT8-CRT1: Parallel Plate Capacitor-Graph of Potential I
eT10-CRT1: Parallel Plate Capacitor-Graph of Potential II
Bar Chart Tasks (BCT)
eT1-BCT1: Charged Insulating Blocks-Charge and Charge Density
eT3-BCT1: Three Charges in a Line-Force
eT5-BCT1: Potential vs Position Graph II-Electric Field
eT5-BCT2: Point Charge-Electric Field
eT5-BCT3: Charged Conducting Spherical Shells-Electric Field
eT7-BCT1: Potential Near Charges-Electric Field and Potential
eT6-BCT1: Systems of Point Charges-Work to Assemble
What, if anything, is Wrong Tasks (WWT)
eT1-WWT1: Breaking a Charged Insulating Block-Charge Density
eT1-WWT2: Breaking a Charged Insulating Block-Charge Density
eT4-WWT1: Equipotential Lines-Direction of Proton’s Motion
eT1-WWT3: Insulator and a Grounded Conductor-Induced Charge
eT1-WWT4: Balloon Sticking on a Wall-Charge Distribution
eT1-WWT5: Neutral Metal Sphere With a Charged Rod-Charge Distribution
eT5-WWT1: Electric Force on an Electron-Electric Field
eT5-WWT2: Hollow Conductors-Field
eT3-WWT1: Charges Arranged in a Triangle-Force
eT3-WWT2: Two Charges-Force
eT3-WWT3: Two Charged Objects-Force
eT3-WWT4: Straight Charged Rod and Two Point Charges-Force
eT3-WWT5: Sphere and a Point Charge-Force
eT3-WWT6: Uniform Electric Field-Electric Force
eT5-WWT2: Electron in a Uniform Electric Field-Velocity
eT5-WWT3: Potential Near Charges-Electric Field
eT5-WWT4: Three Charges In a Line-Electric Field
eT5-WWT5: Potential vs Position Graph II-Electric Field
eT5-WWT6: Field Outside a Sphere with a Cavity-Electric Field
eT6-WWT1: Moving Charged Particle in an Electric Field-Potential Energy
eT8-WWT1: Uniformly Charged Insulating Sphere-Electric Potential
eT8-WWT2: Two Large Charged Parallel Sheets-Potential Difference
eT9-WWT1: Uniform Electric Field-Flux
Troubleshooting Tasks (TT)
eT3-TT1: Charges Arranged in a Triangle-Force
eT3-TT2: Two Charged Objects-Force
eT3-TT3: Straight Charged Rod and Two Point Charges-Force
eT3-TT4: Sphere and a Point Charge-Force
eT4-TT1: Electron Moving into a Uniform Electric Field-Acceleration
eT5-TT1: Potential vs Position Graph II-Electric Field
eT5-TT2: Potential Near Charges-Electric Field
eT5-TT3: Three Charges In a Line-Electric Field
eT7-TT1: Two Connected Charged Spheres-Potential and Charge
eT8-TT1: Two Large Charged Parallel Sheets-Potential Difference
eT9-TT1: Conducting Shell-Flux
eT10-TT1: Charged Rod Near a Suspended Bar Magnet-Rotation Direction
Predict and Explain Tasks (PET)
eT1-PET1: Two Insulating Rods-Charge Density
eT1-PET2: Electroscope-Charge
eT3-PET1: Two Charged Objects-Force
eT3-PET2: Conducting Cube Between Point Charges-Force
eT4-PET1: Straight Charged Rod and Two Point Charges-Accelerate
eT4-PET2: Electric Potential vs Position Graph II-Motion of Charged Particles
eT8-PET1: Parallel Plate Capacitor-Potential
Working Backwards Tasks (WBT)
eT2-WBT1: Three Charges-Physical Situation
eT2-WBT2: Charge Arrangement-Physical Situation
eT2-WBT3: Electric Field Graphs-Physical Situation
eT2-WBT4: Electric Field Graphs-Physical Situation
eT2-WBT5: Electric Potential Difference-Physical Situation
eT2-WBT6: Electric Potential x and y Graphs-Electric Field
eT2-WBT7: Charged Rod with Electric Field Components-Length and Location
eT2-WBT8: Potential near Charges-Physical Situation
eT2-WBT9: Proton Moving Straight Through Magnetic Field-Cause
eT2-WBT10: Forces on Three Charges Along a Line-Charge Location
eT2-WBT11: Forces on Three Charges in Two Dimensions-Charge Locations
eT2-WBT12: Point Charge Inside a Shell-Shell Properties
eT2-WBT13: Charged Insulating Sheets-Electric Field
MAGNETISM
Ranking Tasks (RT)
mT2-RT1: Charge within a Uniform Magnetic Field-Magnetic Force
mT2-RT2: Moving Charge Path-Direction and Strength of the Magnetic Field
mT3-RT1: Moving Charge near a Straight Current-Carrying Wire-Acceleration
mT4-RT1: Current-Carrying Wire in a Uniform Magnetic Field-Magnetic Force
mT6-RT1: Straight Current-Carrying Wire-Magnetic Field
mT6-RT2: Three Dimensional Locations near a Long Straight Wire-Magnetic Field
mT7-RT1: Current-Carrying Circular Loops-Magnetic Field
mT8-RT1: Current-Carrying Straight Wires-Magnetic Field
mT8-RT2: Three Parallel Current-Carrying Wires I-Magnetic Field
mT8-RT3: Three Parallel Current-Carrying Wires II-Magnetic Field at Wire Y
mT9-RT1: Parallel Current-Carrying Wires I-Magnetic Force on Wire
mT10-RT1: Moving Charge in a Uniform Magnetic Field-Change in Kinetic Energy
mT11-RT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux
mT11-RT2: Moving Rectangular Loops in Uniform Magnetic Fields-Flux
mT11-RT3: Moving Rectangular Loops in Uniform Magnetic Fields-Flux Change
mT11-RT4: Moving Rectangular Loops in Uniform Magnetic Fields-Flux Change
mT12-RT1: Moving Rectangular Loops in Uniform Magnetic Fields-Voltage
mT13-RT1: Moving Rectangular Loops in Uniform Magnetic Fields-Current
mT13-RT2: Changing Current-Bulb Brightness
mT14-RT1: Wire on a Loop Moving in a Magnetic Field-Magnetic Field
mT14-RT2: Loop Moving into a Uniform Magnetic Field-Magnetic Field
mT14-RT3: Loops and Uniform Magnetic Fields-Magnetic Field
mT14-RT4: Wire on a Loop Moving in a Magnetic Field-Induced Magnetic Field
mT14-RT5: Loops and Uniform Magnetic Field-Induced Magnetic Field
mT15-RT1: Wire Loops and Moving Magnets-Loop Motion
Comparison Tasks (CT)
mT11-CT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux
mT11-CT2: Moving Rectangular Loops in Uniform Magnetic Fields-Flux Change
mT13-CT1: Moving Rectangular Loops in Uniform Magnetic Fields-Current
mT13-CT2: Moving Rectangular Loops in Uniform Magnetic Fields-Current
Qualitative Reasoning Tasks (QRT)
mT1-QRT1: Electric Charge Near a Bar Magnet-Force Direction
mT1-QRT2: Charge Near a Circular Current Loop-Force Direction
mT2-QRT1: Charged Particle and a Uniform Magnetic Field-Path
mT3-QRT1: Moving Charge near a Straight Current-Carrying Wire-Acceleration
mT4-QRT1: Current-Carrying Wire in a Uniform Magnetic Field-Magnetic Force
mT4-QRT2: Current-Carrying Wire in a Uniform Magnetic Field-“Bend” of Wire
mT5-QRT1: Two Parallel Long Wires-Force Difference
mT5-QRT2: Suspended Permanent Magnet and Circular Coil-Scale Reading
mT6-QRT1: Straight Current-Carrying Wire-Magnetic Field
mT8-QRT1: Three Parallel Current-Carrying Wires I-Magnetic Field
mT8-QRT2: Three Parallel Current-Carrying Wires II-Magnetic Field at a Wire
mT10-QRT1: Moving Charge in a Uniform Magnetic Field-Kinetic Energy Change
mT11-QRT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux and Flux Change
mT11-QRT2: Moving Rectangular Loops in Uniform Magnetic Fields-Flux and Flux Change
mT13-QRT1: Changing Current-Bulb Brightness
mT13-QRT2: Circular Loop outside a Long Solenoid-Induced Current
mT14-QRT1: Loop Moving in a Uniform Magnetic Fields-Induced and Total Magnetic Field
mT14-QRT2: Loops and Magnetic Field-Direction of Induced Magnetic Field
mT15-QRT1: Wire Loops and Moving Magnets-Motion of the System
Linked Multiple Choice Tasks (LMCT)
mT2-LMCT1: Moving Charge within a Uniform Magnetic Field-Force
mT3-LMCT1: Moving Charge between Two Current-Carrying Wires-Acceleration
mT3-LMCT2: Charge Moving Along Wire-Magnetic Force
mT4-LMCT1: Current in a Uniform Magnetic Field-Magnetic Force
mT6-LMCT1: Long Wire with a Current-Magnetic Field
mT7-LMCT1: Current-Carrying Circular Loop-Magnetic Field
mT8-LMCT1: Three Current-Carrying Wires-Magnetic Field between Wires
mT8-LMCT2: Three Parallel Current-Carrying Wires I-Magnetic Field
mT9-LMCT1: Three Parallel Current-Carrying Wires I-Magnetic Force on Wire
mT12-LMCT1: Moving Rectangular Loops in Uniform Magnetic Fields-Emf
mT12-LMCT2: Rectangular Loop in a Uniform Magnetic Field-Velocity
mT13-LMCT1: Moving Rectangular Loops in Uniform Magnetic Fields-Current
mT13-LMCT2: Loops with Bulbs near a Current-Bulb Lighting
mT15-LMCT1: Wire Loops and Moving Magnets-Loop Behavior
Conflicting Contentions Tasks (CCT)
mT1-CCT1: Electric Charge Near a Bar Magnet-Force Direction
mT1-CCT2: Charge Near a Circular Current Loop-Force Direction
mT3-CCT1: Charged Particle and Straight Current-Carrying Wire-Force
mT5-CCT1: Moving Magnet and Circular Loop-Force
mT5-CCT2: Two Magnets-Force
mT8-CCT1: Three Parallel Current-Carrying Wires II-Force
mT11-CCT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux Change
mT12-CCT1: Moving Rectangular Loops in Uniform Magnetic Fields-Emf
mT13-CCT1: Moving Rectangular Loops in Uniform Magnetic Fields-Current
mT13-CCT2: Changing Current-Bulb Brightness
mT14-CCT1: Moving Loops in Uniform Magnetic Fields-Magnetic Field
mT14-CCT2: Loop Moving into a Uniform Magnetic Field-Induced Magnetic Field
Changing Representations Tasks (CRT)
mT2-CRT1: Charge in a Uniform Magnetic Field Equation-Acceleration Graph
mT3-CRT1: Long Current-Carrying Wire II-Magnetic Field
mT4-CRT1: Force Equation-Diagram of the Current in a Magnetic Field
mT6-CRT1: Magnetic Field Equation-Current and the Magnetic Field Diagram
mT11-CRT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux
mT11-CRT2: Moving Parallelogram Loop in Uniform Magnetic Fields-Flux
mT12-CRT1: Flux vs Time Graph-EMF vs Time Graph
mT13-CRT1: Moving Rectangular Loops in Uniform Magnetic Fields-Current
mT15-CRT1: Wire Loops and Moving Magnets-Current
Bar Chart Tasks (BCT)
mT5-BCT1: Two Long Straight Wires-Force
mT5-BCT2: Long Straight Wire and Rectangular Coil-Force
mT6-BCT1: Straight Current-Carrying Wire-Magnetic Field
mT8-BCT1: Three Parallel Current-Carrying Wires I-Magnetic Field
mT10-BCT1: Moving Charge in a Uniform Magnetic Field-Work & Kinetic Energy
mT10-BCT2: Moving Charge in a Uniform Magnetic Field-Work & Kinetic Energy
What, if anything, is Wrong Tasks (WWT)
mT1-WWT1: Electric Charge Near a Bar Magnet-Force Direction
mT2-WWT1: Moving Charge within a Uniform Magnetic Field-Force Direction
mT2-WWT2: Charged Particles and a Uniform Magnetic Field-Direction of Motion
mT3-WWT1: Moving Charge near a Straight Current-Carrying Wire-Force
mT4-WWT1: Current-Carrying Wire in a Uniform Magnetic Field-Force Direction
mT6-WWT1: Current-Carrying Wire I-Magnetic Field Direction
mT9-WWT1: Three Parallel Current-Carrying Wires I-Magnetic Force
mT13-WWT1: Changing Current-Bulb Brightness
mT14-WWT1: Moving Loop in Uniform Magnetic Field-Induced Magnetic Field
mT14-WWT2: Loop Moving into a Uniform Magnetic Field-Induced Magnetic Field
Troubleshooting Tasks (TT)
mT2-TT1: Path of a Moving Electron in a Uniform Magnetic Field
mT3-TT1: Moving Positive Charge near a Current-Carrying Wire-Force
mT4-TT1: Current-Carrying Wire in a Uniform Magnetic Field-Force
mT6-TT1: Current-Carrying Wire-Magnetic Field
mT7-TT1: Current-Carrying Circular Loop-Magnetic Field
mT11-TT1: Moving Rectangular Loops in Uniform Magnetic Fields-Flux Change
mT12-TT1: Moving Rectangular Loops in Uniform Magnetic Fields-Voltage
mT13-TT1: Changing Current-Bulb Brightness
mT14-TT1: Moving Loops in Uniform Magnetic Fields-Magnetic Field
Predict and Explain Tasks (PET)
mT2-PET1: Electron Moving into a Uniform Magnetic Field-Electron
mT2-PET2: Proton at Rest in a Uniform Magnetic Field-Proton
mT2-PET3: Proton Moving into a Uniform Magnetic Field-Proton
mT3-PET1: Positive Charge at Rest Near a Current-Carrying Wire-Charge
mT8-PET1: Three Parallel Current-Carrying Wires I-Change Single Current
mT10-PET1: Moving Charge in a Uniform Magnetic Field-Kinetic Energy
mT13-PET1: Circular Loops within a Solenoid-Ammeter
Working Backwards Tasks (WBT)
mT2-WBT1: Equation For a Charge and a Magnetic Field I-Physical Situation
mT2-WBT2: Equation for a Charge and a Magnetic Field II-Physical Situation
mT4-WBT1: Equation for a Current and a Magnetic Field II-Physical Situation
mT7-WBT1: Equation for a Current and a Magnetic Field-Physical Situation
mT8-WBT1: Equation for Three Currents-Physical Situation
mT8-WBT2: Three Parallel Current-Carrying Wires I-Direction of Currents
mT8-WBT3: Three Parallel Current-Carrying Wires II-Direction of Currents
mT9-WBT1: Three Parallel Current-Carrying Wires I-Direction of Currents
mT10-WBT1: Charge and a Magnetic Field-Physical Situation
mT11-WBT1: Moving Rectangular Loops in Uniform Magnetic Fields-Situation
mT11-WBT2: Flux versus Time graph-Loop Characteristics
mT11-WBT3: Moving Rectangular Loops in Uniform Magnetic Fields-Situation
mT12-WBT1: Moving Rectangular Loops in Uniform Magnetic Fields-Situation
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