184_notes

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision		 Previous revision
Next revisionBoth sides next revision
184_notes [2019/01/06 16:25] dmcpadden184_notes [2023/01/03 19:28] dmcpadden
Line 1: Line 1:
 ~~NOTOC~~ ~~NOTOC~~
  
-==== 184 Notes  - Spring 2019 =====+==== 184 Notes  - Fall 2022 =====
  
 === Review Materials === === Review Materials ===
Line 19: Line 19:
  
 === Week 2 === === Week 2 ===
-**Superposition and Modeling Two Point Charges** +**Modeling Electric Field & Potential from Single Point Charge** 
-  * [[:184_notes:charge_and_matter| Charge and Matter]] +  *[[:184_notes:charge_and_matter| Charge and Matter]] 
-  * [[:184_notes:charging_discharging|Charging and Discharging]]+  *[[:184_notes:charging_discharging|Charging and Discharging]] 
 +  * [[:184_notes:superposition| Superposition]] 
 +  * [[:184_notes:dipole_sup| Dipole Superposition Example]] 
 +  * [[:184_notes:comp_super| Superposition and the Computer ]] 
 + 
 +=== Week 3 === 
 +**Electric Force, Energy, & Superposition**
   * [[:184_notes:pc_force| Electric Force]]   * [[:184_notes:pc_force| Electric Force]]
   * [[:184_notes:pc_energy| Electric Potential Energy]]   * [[:184_notes:pc_energy| Electric Potential Energy]]
   * [[:184_notes:pc_vefu| Relating Electric Force, Electric Field, Electric Potential, and Electric Potential Energy]]   * [[:184_notes:pc_vefu| Relating Electric Force, Electric Field, Electric Potential, and Electric Potential Energy]]
  
- +=== Week ===
-=== Week ===+
 **Modeling Distributions of Charge** **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:line_fields| Building Electric Field and Potential for a Line of Charge]]
   * [[:184_notes:dq| dQ and the $\vec{r}$]]   * [[:184_notes:dq| dQ and the $\vec{r}$]]
   * [[:184_notes:linecharge| Line of Charge]]   * [[:184_notes:linecharge| Line of Charge]]
 +  * [[:184_notes:dist_charges| Distributions of Charges]]
 +  * [[:184_notes:patterns_fields| Patterns in Fields]]
  
- +=== Week ===
-=== Week ===+
 **Modeling Moving Charges and Batteries** **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:motiv_movingq | Motivation for Moving Charges]]
   * [[:184_notes:batteries| Batteries]]   * [[:184_notes:batteries| Batteries]]
   * [[:184_notes:q_in_wires| Surface Charges around Circuit]]   * [[:184_notes:q_in_wires| Surface Charges around Circuit]]
 +  * [[:184_notes:gradient| Surface Charge Gradients]]
  
-=== Week === + 
-**Modeling Current and Resistors**+=== Week === 
 +**Combinations of resistors**
   * [[:184_notes:defining_current| Defining Current]]   * [[:184_notes:defining_current| Defining Current]]
   * [[:184_notes:current| Current in Wires]]   * [[:184_notes:current| Current in Wires]]
Line 52: Line 55:
   * [[:184_notes:r_energy| Energy in Circuits]]   * [[:184_notes:r_energy| Energy in Circuits]]
   * [[:184_notes:resistivity| Resistors and Conductivity]]   * [[: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 === +=== Week === 
-**Modeling Capacitors and More Complex Circuits**+**Combinations of resistors (Part 2)** 
 +  * [[:184_notes:kirchoffs_rules| Using Loop and Node Equations to Solve Circuits]] 
 +  * *[[:184_notes:combinations| Larger Combinations of Circuit Elements]] 
 + 
 +=== Week 8 === 
 +**Capacitors and Combinations of Capacitors**
   *[[:184_notes:cap_charging| Charging and Discharging Capacitors]]   *[[:184_notes:cap_charging| Charging and Discharging Capacitors]]
   *[[:184_notes:cap_in_cir| Capacitors in Circuits]]   *[[: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_series| Capacitors in Series]]
   *[[:184_notes:c_parallel| Capacitors in Parallel]]   *[[:184_notes:c_parallel| Capacitors in Parallel]]
-  *[[:184_notes:combinations| Larger Combinations of Circuit Elements]] 
  
-=== Week === +=== Week === 
-**Modeling Magnetic Field and Force from a Moving Point Charge**+**Modeling Magnetic Field from a Moving Point Charge**
   *[[:184_notes:mag_interaction| Magnetic Interaction]]   *[[:184_notes:mag_interaction| Magnetic Interaction]]
   *[[:184_notes:moving_q| Moving Charges Make Magnetic Fields]]   *[[:184_notes:moving_q| Moving Charges Make Magnetic Fields]]
   *[[:184_notes:rhr|Right Hand Rule]]   *[[: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 ===+ 
 +=== Week 10 ===
 **Modeling the Magnetic Field of a Wire** **Modeling the Magnetic Field of a Wire**
   *[[:184_notes:superposition_B| Superposition of Magnetic Fields]]   *[[: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_current| Currents Make Magnetic Fields]]
 +
 +=== Week 11 ===
   *[[:184_notes:b_sup_comp|Using Superposition of Magnetic Field and the Computer]]   *[[:184_notes:b_sup_comp|Using Superposition of Magnetic Field and the Computer]]
   *[[:184_notes:b_shapes|Shapes of Wire and Magnetic Field]]   *[[:184_notes:b_shapes|Shapes of Wire and Magnetic Field]]
 +  *[[:184_notes:perm_mag| Permanent Magnets]]
  
-=== Week 10 === +=== Week 12 === 
-**Modeling Magnetic Force of a Wire**+**Modeling Magnetic Force** 
 +  * [[: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]]
   * [[:184_notes:i_b_force|Magnetic Force on Current Carrying Wire]]   * [[:184_notes:i_b_force|Magnetic Force on Current Carrying Wire]]
   * [[:184_notes:b_summary|Summary of Magnetic Fields/Force]]   * [[:184_notes:b_summary|Summary of Magnetic Fields/Force]]
-  * [[:184_notes:e_b_summary|Summary of Electricity and Magnetism (thus far)]] 
  
-=== Week 11 === +=== Week 13 === 
-**Modeling Symmetric Magnetic Fields** +**E&M so far, flux, & short cuts** 
-  *[[:184_notes:motiv_amp_law|Motivating Ampere's Law]] +  * [[:184_notes:e_b_summary|Summary of Electricity and Magnetism (thus far)]]
-  *[[: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 ===+=== Week 14 ===
 **Relating Electric and Magnetic Fields** **Relating Electric and Magnetic Fields**
   * [[:184_notes:what_happens|What happens when you change the magnetic field near a loop?]]   * [[:184_notes:what_happens|What happens when you change the magnetic field near a loop?]]
   * [[:184_notes:b_flux|Changing magnetic flux]]   * [[:184_notes:b_flux|Changing magnetic flux]]
   * [[:184_notes:ind_i|The Curly Electric Field and Induced Current]]   * [[: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]]   * [[:184_notes:relating_e|Putting All of Faraday's Law Together]]
- +  * [[:184_notes:ind_graphs|Induction Graphs]]
-=== Week 14 === +
-**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]]+
  
 === Week 15 === === Week 15 ===
 +**Induction (Part 2)**
 +  * [[:184_notes:b_flux_t| Changing Magnetic Fields with Time]]
 +  * [[:184_notes:ac| Alternating Current]]
 +  * [[:184_notes:changing_e| Changing Electric Fields]]
 +
 +=== Semester Review ===
 **Review of the semester** **Review of the semester**
   *[[:184_notes:electric_field|The Electric Field]]   *[[:184_notes:electric_field|The Electric Field]]
Line 125: Line 122:
   *[[:184_notes:symmetry|Symmetry and Mathematical Tools]]   *[[:184_notes:symmetry|Symmetry and Mathematical Tools]]
   *[[:184_notes:maxwells_eq|Maxwell's Equations]]   *[[:184_notes:maxwells_eq|Maxwell's Equations]]
 +
 +
 +/* 
 +=== Ampere's Law Notes ===
 +  * [[: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]]
 +
 +=== Gauss's Law Notes ===
 +=== Week 13 ===
 +**Electric Flux & 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]]
 +
 +*/
  
  • 184_notes.txt
  • Last modified: 2024/01/09 16:53
  • by dmcpadden