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| *[[:184_notes:extra_words| Extra Words]] | *[[:184_notes:extra_words| Extra Words]] |
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| | ===== Spring Notes - Spring 2020 ===== |
| | |
| | === Review Materials === |
| | **Review of Key Concepts from Mechanics** |
| | * [[:184_notes:math_review| Math Review]] |
| | * [[:184_notes:defining_a_system| Defining a System]] |
| | * [[:184_notes:three_principles| 3 Fundamental Principles of Mechanics]] |
| | * [[:184_notes:using_python| Using Python]] |
| | * [[:184_notes:python_syntax| Common Commands in Python]] |
| | |
| | === Week 1 === |
| | **Modeling a Single Point Charge** |
| | *[[:184_notes:charge| Electric Charge]] |
| | *[[:184_notes:pc_efield| Electric Field]] |
| | *[[:184_notes:pc_potential| Electric Potential]] |
| | *[[:184_notes:relating_EV| Relating Electric Field and Electric Potential]] |
| | |
| | === Week 2 === |
| | **Superposition and Modeling Two Point Charges** |
| | * [[:184_notes:charge_and_matter| Charge and Matter]] |
| | * [[:184_notes:charging_discharging|Charging and Discharging]] |
| | * [[:184_notes:pc_force| Electric Force]] |
| | * [[:184_notes:pc_energy| Electric Potential Energy]] |
| | * [[:184_notes:pc_vefu| Relating Electric Force, Electric Field, Electric Potential, and Electric Potential Energy]] |
| | |
| | |
| | === Week 3 === |
| | **Modeling Distributions of Charge** |
| | * [[:184_notes:superposition| Superposition]] |
| | * [[:184_notes:dipole_sup| Dipole Superposition Example]] |
| | * [[:184_notes:comp_super| Superposition and the Computer ]] |
| | * [[:184_notes:line_fields| Building Electric Field and Potential for a Line of Charge]] |
| | * [[:184_notes:dq| dQ and the →r]] |
| | * [[:184_notes:linecharge| Line of Charge]] |
| | |
| | |
| | === Week 4 === |
| | **Modeling Moving Charges and Batteries** |
| | * [[:184_notes:dist_charges| Distributions of Charges]] |
| | * [[:184_notes:patterns_fields| Patterns in Fields]] |
| | * [[:184_notes:motiv_movingq | Motivation for Moving Charges]] |
| | * [[:184_notes:batteries| Batteries]] |
| | * [[:184_notes:q_in_wires| Surface Charges around Circuit]] |
| | |
| | === Week 5 === |
| | **Modeling Current and Resistors** |
| | * [[:184_notes:defining_current| Defining Current]] |
| | * [[:184_notes:current| Current in Wires]] |
| | * [[:184_notes:resistors| Resistors]] |
| | * [[:184_notes:r_energy| Energy in Circuits]] |
| | * [[:184_notes:resistivity| Resistors and Conductivity]] |
| | |
| | === Week 6 === |
| | **Modeling Capacitors and More Complex Circuits** |
| | *[[:184_notes:cap_charging| Charging and Discharging Capacitors]] |
| | *[[:184_notes:cap_in_cir| Capacitors in Circuits]] |
| | *[[:184_notes:r_series| Resistors in Series]] |
| | *[[:184_notes:r_parallel| Resistors in Parallel]] |
| | *[[:184_notes:kirchoffs_rules| Using Loop and Node Equations to Solve Circuits]] |
| | |
| | === Week 7 === |
| | **Modeling Combinations of Resistors and Capacitors** |
| | *[[:184_notes:c_series| Capacitors in Series]] |
| | *[[:184_notes:c_parallel| Capacitors in Parallel]] |
| | *[[:184_notes:combinations| Larger Combinations of Circuit Elements]] |
| | |
| | === Week 8 === |
| | **Modeling Magnetic Field and Force from a Moving Point Charge** |
| | *[[:184_notes:mag_interaction| Magnetic Interaction]] |
| | *[[:184_notes:moving_q| Moving Charges Make Magnetic Fields]] |
| | *[[:184_notes:rhr|Right Hand Rule]] |
| | *[[:184_notes:motiv_b_force|Magnetic Forces in the Real World]] |
| | *[[:184_notes:q_b_force|Magnetic Force on Moving Charges]] |
| | *[[:184_notes:q_path|Path of a Moving Charge through a Magnetic Field]] |
| | |
| | === Week 9 === |
| | **Modeling the Magnetic Field of a Wire** |
| | *[[:184_notes:superposition_B| Superposition of Magnetic Fields]] |
| | *[[:184_notes:perm_mag| Permanent Magnets]] |
| | *[[:184_notes:b_current| Currents Make Magnetic Fields]] |
| | *[[:184_notes:b_sup_comp|Using Superposition of Magnetic Field and the Computer]] |
| | *[[:184_notes:b_shapes|Shapes of Wire and Magnetic Field]] |
| | |
| | === Week 10 === |
| | **Modeling Magnetic Force of a Wire** |
| | * [[:184_notes:i_b_force|Magnetic Force on Current Carrying Wire]] |
| | * [[:184_notes:b_summary|Summary of Magnetic Fields/Force]] |
| | * [[:184_notes:e_b_summary|Summary of Electricity and Magnetism (thus far)]] |
| | |
| | === Week 11 === |
| | **Modeling Symmetric Magnetic Fields** |
| | *[[:184_notes:motiv_amp_law|Motivating Ampere's Law]] |
| | *[[:184_notes:loop|Magnetic Field along a Closed Loop]] |
| | *[[:184_notes:i_thru|Current through a Loop]] |
| | *[[:184_notes:amp_law|Putting Together Ampere's Law]] |
| | |
| | === Week 12 === |
| | **Modeling Symmetric Electric Fields** |
| | * [[184_notes:gauss_motive|Motivation for Gauss's Law]] |
| | * [[184_notes:e_flux|Electric Flux and Area Vectors]] |
| | * [[184_notes:eflux_curved|Electric Flux through Curved Surfaces]] |
| | * [[184_notes:q_enc|Enclosed Charge]] |
| | * [[184_notes:gauss_ex|Putting together Gauss's Law]] |
| | |
| | === Week 13 === |
| | **Relating Electric and Magnetic Fields** |
| | * [[:184_notes:what_happens|What happens when you change the magnetic field near a loop?]] |
| | * [[:184_notes:b_flux|Changing magnetic flux]] |
| | * [[:184_notes:ind_i|The Curly Electric Field and Induced Current]] |
| | * [[:184_notes:relating_e|Putting All of Faraday's Law Together]] |
| | * [[:184_notes:b_flux_t|Changing Magnetic Fields with Time]] |
| | |
| | === Week 14 === |
| | **Modeling Changing Magnetic Field and Changing Electric Fields** |
| | *[[:184_notes:ac|Alternating Current]] |
| | *[[:184_notes:changing_e|Changing Electric Fields]] |
| | |
| | === Week 15 === |
| | **Review of the semester** |
| | *[[:184_notes:electric_field|The Electric Field]] |
| | *[[:184_notes:magnetic_field|The Magnetic Field]] |
| | *[[:184_notes:conservation_theorems|Conservation Theorems]] |
| | *[[:184_notes:symmetry|Symmetry and Mathematical Tools]] |
| | *[[:184_notes:maxwells_eq|Maxwell's Equations]] |
| | |
| | |
| | ==== 184 Notes - Spring 2021 ===== |
| | |
| | === Review Materials === |
| | **Review of Key Concepts from Mechanics** |
| | * [[:184_notes:math_review| Math Review]] |
| | * [[:184_notes:defining_a_system| Defining a System]] |
| | * [[:184_notes:three_principles| 3 Fundamental Principles of Mechanics]] |
| | * [[:184_notes:using_python| Using Python]] |
| | * [[:184_notes:python_syntax| Common Commands in Python]] |
| | |
| | === Week 1 === |
| | **Modeling a Single Point Charge** |
| | *[[:184_notes:charge| Electric Charge]] |
| | *[[:184_notes:charge_and_matter| Charge and Matter]] |
| | *[[:184_notes:charging_discharging|Charging and Discharging]] |
| | *[[:184_notes:pc_efield| Electric Field]] |
| | *[[:184_notes:pc_potential| Electric Potential]] |
| | *[[:184_notes:relating_EV| Relating Electric Field and Electric Potential]] |
| | |
| | === Week 2 === |
| | **Superposition and Modeling Two Point Charges** |
| | * [[:184_notes:pc_force| Electric Force]] |
| | * [[:184_notes:pc_energy| Electric Potential Energy]] |
| | * [[:184_notes:pc_vefu| Relating Electric Force, Electric Field, Electric Potential, and Electric Potential Energy]] |
| | * [[:184_notes:superposition| Superposition]] |
| | * [[:184_notes:dipole_sup| Dipole Superposition Example]] |
| | * [[:184_notes:comp_super| Superposition and the Computer ]] |
| | |
| | === Week 3 === |
| | **Modeling Distributions of Charge** |
| | * [[:184_notes:line_fields| Building Electric Field and Potential for a Line of Charge]] |
| | * [[:184_notes:dq| dQ and the →r]] |
| | * [[:184_notes:linecharge| Line of Charge]] |
| | * [[:184_notes:dist_charges| Distributions of Charges]] |
| | * [[:184_notes:patterns_fields| Patterns in Fields]] |
| | |
| | |
| | === Week 4 === |
| | **Modeling Moving Charges and Batteries** |
| | * [[:184_notes:motiv_movingq | Motivation for Moving Charges]] |
| | * [[:184_notes:batteries| Batteries]] |
| | * [[:184_notes:q_in_wires| Surface Charges around Circuit]] |
| | * [[:184_notes:gradient| Surface Charge Gradients]] |
| | * [[:184_notes:defining_current| Defining Current]] |
| | * [[:184_notes:current| Current in Wires]] |
| | |
| | === Week 5 === |
| | **Modeling Resistors** |
| | *[[:184_notes:resistors| Resistors]] |
| | *[[:184_notes:r_energy| Energy in Circuits]] |
| | *[[:184_notes:resistivity| Resistors and Conductivity]] |
| | *[[:184_notes:r_series| Resistors in Series]] |
| | *[[:184_notes:r_parallel| Resistors in Parallel]] |
| | *[[:184_notes:kirchoffs_rules| Using Loop and Node Equations to Solve Circuits]] |
| | |
| | === Week 6 === |
| | **Modeling Combinations of Resistors and Capacitors** |
| | *[[:184_notes:cap_charging| Charging and Discharging Capacitors]] |
| | *[[:184_notes:cap_in_cir| Capacitors in Circuits]] |
| | *[[:184_notes:c_series| Capacitors in Series]] |
| | *[[:184_notes:c_parallel| Capacitors in Parallel]] |
| | *[[:184_notes:combinations| Larger Combinations of Circuit Elements]] |
| | |
| | === Week 7 === |
| | **Extra Week on Circuits** |
| | * Review any notes from Weeks 4 - 6 on circuits that you didn't understand. |
| | |
| | === Week 8 === |
| | **Modeling Magnetic Field and Force from a Moving Point Charge** |
| | *[[:184_notes:mag_interaction| Magnetic Interaction]] |
| | *[[:184_notes:moving_q| Moving Charges Make Magnetic Fields]] |
| | *[[:184_notes:rhr|Right Hand Rule]] |
| | *[[:184_notes:motiv_b_force|Magnetic Forces in the Real World]] |
| | *[[:184_notes:q_b_force|Magnetic Force on Moving Charges]] |
| | *[[:184_notes:q_path|Path of a Moving Charge through a Magnetic Field]] |
| | |
| | === Week 9 === |
| | **Modeling the Magnetic Field of a Wire** |
| | *[[:184_notes:superposition_B| Superposition of Magnetic Fields]] |
| | *[[:184_notes:perm_mag| Permanent Magnets]] |
| | *[[:184_notes:b_current| Currents Make Magnetic Fields]] |
| | *[[:184_notes:b_sup_comp|Using Superposition of Magnetic Field and the Computer]] |
| | *[[:184_notes:b_shapes|Shapes of Wire and Magnetic Field]] |
| | |
| | === Week 10 === |
| | **Modeling Magnetic Force of a Wire** |
| | * [[:184_notes:i_b_force|Magnetic Force on Current Carrying Wire]] |
| | * [[:184_notes:b_summary|Summary of Magnetic Fields/Force]] |
| | * [[:184_notes:e_b_summary|Summary of Electricity and Magnetism (thus far)]] |
| | |
| | === Week 11 === |
| | **Relating Electric and Magnetic Fields** |
| | * [[:184_notes:what_happens|What happens when you change the magnetic field near a loop?]] |
| | * [[:184_notes:b_flux|Changing magnetic flux]] |
| | * [[:184_notes:ind_i|The Curly Electric Field and Induced Current]] |
| | * [[:184_notes:Induced Current| Finding the Direction of Induced Current]] |
| | * [[:184_notes:relating_e|Putting All of Faraday's Law Together]] |
| | |
| | === Week 12 === |
| | **Modeling Changing Magnetic Field and Changing Electric Fields** |
| | *[[:184_notes:b_flux_t|Changing Magnetic Fields with Time]] |
| | *[[:184_notes:ac|Alternating Current]] |
| | *[[:184_notes:changing_e|Changing Electric Fields]] |
| | |
| | |
| | === Semester in Review === |
| | **Review of the semester** |
| | *[[:184_notes:electric_field|The Electric Field]] |
| | *[[:184_notes:magnetic_field|The Magnetic Field]] |
| | *[[:184_notes:conservation_theorems|Conservation Theorems]] |
| | *[[:184_notes:symmetry|Symmetry and Mathematical Tools]] |
| | *[[:184_notes:maxwells_eq|Maxwell's Equations]] |
| | |
| | |
| | |
| | === Skipped - Ampere's Law (between Week 10 & 11) === |
| | **Modeling Symmetric Magnetic Fields** |
| | *[[:184_notes:motiv_amp_law|Motivating Ampere's Law]] |
| | *[[:184_notes:loop|Magnetic Field along a Closed Loop]] |
| | *[[:184_notes:i_thru|Current through a Loop]] |
| | *[[:184_notes:amp_law|Putting Together Ampere's Law]] |
| | |
| | === Skipped - Gauss's Law (between Week 10 & 11) === |
| | **Modeling Symmetric Electric Fields** |
| | * [[184_notes:gauss_motive|Motivation for Gauss's Law]] |
| | * [[184_notes:e_flux|Electric Flux and Area Vectors]] |
| | * [[184_notes:eflux_curved|Electric Flux through Curved Surfaces]] |
| | * [[184_notes:q_enc|Enclosed Charge]] |
| | * [[184_notes:gauss_ex|Putting together Gauss's Law]] |