PHYS 158

UBC

Course Overview

Lessons & Practice

1. Circuits I (resistors, capacitors)

1.3hr

1.I. Chapter Intro46 sec

1.1.1. Current, resistance, and power3 min

1.1.2. Resistors in series and parallel3 min

1.1.3. Equivalent resistance2 min

1.1.4. Inductors in series and parallel

1.1.5. Kirchhoff's rules6 min

1.1.6. Ranking bulb brightness4 min

1.1.7. Finding the current in a circuit8 min

1.2.1. Capacitance and capacitors3 min

1.2.2. Parallel plate capacitor example3 min

1.2.3. Capacitance of concentric cylinders6 min

1.2.4. Capacitance of concentric spheres

1.2.5. Dielectrics increase capacitance3 min

1.2.6. Coaxial cable dielectric2 min

1.2.7. Dielectrics6 min

1.2.8. Capacitors in circuits (series/parallel)3 min

1.2.9. Capacitors in a circuit4 min

1.2.10. Charging a capacitor with another capacitor5 min

1.2.11. Energy Stored in a Capacitor3 min

1.2.12. Three dielectrics between two plates5 min

1.2.13. Dielectrics (circuits)5 min

1.Q. Checkpoint Quiz7 Qns

1.P.1. Net capacitance

1.P.2. Charge stored on capacitors in a circuit6 min

1.P.3. Equivalent resistance

2. Circuits II (RC, RL, RLC)

1.1hr

2.I. Chapter Intro53 sec

2.1.1. RC circuits - charging a capacitor10 min

2.1.2. Differential equation for RC charging (optional)

2.1.3. RC circuits - discharging a capacitor3 min

2.1.4. RC circuit practice5 min

2.1.5. RC circuit - more practice12 min

2.2.1. Inductors

2.2.2. RL circuits - rising current3 min

2.2.3. RL circuits - decaying current1 min

2.2.4. RL circuit - practice problems10 min

2.3.1. LC Circuits and energy conservation6 min

2.3.2. LC Circuits1 min

2.3.3. RLC circuits4 min

2.3.4. Quality factor

2.3.5. LCR Circuits and damping8 min

2.Q. Checkpoint Quiz3 Qns

2.P.1. RC circuit problems

2.P.2. Parallel RLC circuit and switches

2.P.3. LC is a special case of RLC

2.P.4. LC circuit oscillations

2.P.5. RL practice

2.P.6. RC circuit branches

2.P.7. RC further practice

2.P.8. Equivalent RC branch

2.P.9. RLC Circuits4 min

4. Electric charge and force

45min

4.I. Chapter Intro23 sec

4.1.1. Properties of charge2 min

4.1.2. Repulsion and attraction39 sec

4.1.3. Conductors and insulators5 min

4.1.4. Grounding3 min

4.2.1. Electrostatic force (Coulomb’s law)5 min

4.2.2. Square of charges13 min

4.2.3. Placing a third charge - y-axis5 min

4.2.4. Placing a third charge - x-axis11 min

4.Q. Checkpoint Quiz5 Qns

4.P.1. Charges in equilibrium

4.P.2. Suspended charges

4.P.3. Three point charges

5. Electric field and Gauss's Law

2.3hr

5.I. Chapter Intro1 min

5.1.1. Electric field6 min

5.1.2. Electric field lines3 min

5.1.3. Sketching field lines7 min

5.1.4. Net force and torque on a dipole4 min

5.1.5. Principle of superposition2 min

5.1.6. Field from two point charges9 min

5.1.7. Field from multiple charges (symmetry)4 min

5.1.8. Motion of a charged particle in an electric field3 min

5.1.9. Kinematic equations with a charge7 min

5.2.1. Field due to a rod10 min

5.2.2. Field due to a special rod11 min

5.2.3. Field due to a ring5 min

5.2.4. Field due to a disk8 min

5.3.1. Electric Flux5 min

5.3.2. Flux through a closed shape6 min

5.3.3. Gauss’s Law6 min

5.3.4. Gauss’s Law practice4 min

5.3.5. Field from infinite line charge6 min

5.3.6. Electric field due to infinite planes7 min

5.3.7. Charges on conductors3 min

5.3.8. Conducting sphere example3 min

5.Q. Checkpoint Quiz4 Qns

5.P.1. Gauss sphere practice9 min

5.P.2. Four parallel plates

5.P.3. Non-uniform flux through a round surface11 min

5.P.4. Drawing electric field lines

5.P.5. Drawing more electric field lines

5.P.6. Derive electric field formula for capacitor (two infinite planes)

6. Electric potential and potential energy

1.4hr

6.I. Chapter Intro40 sec

6.1.1. Electric potential10 min

6.1.2. Electric potential example3 min

6.1.3. Potential from a rod (continuous)4 min

6.1.4. Equipotential lines - examples4 min

6.1.5. Equipotential lines and work done4 min

6.1.6. Relationship between electric potential and electric field6 min

6.1.7. Electric potential and field - graphical2 min

6.1.8. Electric potential and field - calculus4 min

6.1.9. Potential due to a sphere (insulator vs conductor)15 min

6.2.1. Work and electric potential energy6 min

6.2.2. Electric potential energy - example5 min

6.2.3. Electric potential energy - second example9 min

6.2.4. Electron volts

6.Q. Checkpoint Quiz4 Qns

6.P.1. Electric potential energy and releasing a charge

6.P.2. Releasing two repulsive charges6 min

7. Magnetism I (basics, Lorenz)

1.5hr

7.I. Chapter Intro47 sec

7.1.1. Magnetism basics4 min

7.1.2. Cross product6 min

7.2.1. Magnetic Force on a moving charge (Lorenz force)6 min

7.2.2. Magnetic Force on a moving charge (Lorenz force)3 min

7.2.3. Magnetic Force on Moving Charged Particles:7 min

7.3.1. Magnetic force on a current carrying conductor6 min

7.3.2. Force on a simple wire3 min

7.3.3. Net force on a ring wire4 min

7.4.1. Torque due to a Magnetic Field4 min

7.4.2. Magnetic Force on a Current-Carrying Conductor5 min

7.4.3. Torque due to a Magnetic Field2 min

7.5.1. Circular motion in a magnetic field5 min

7.5.2. Particle, circular path3 min

7.5.3. Helical motion10 min

7.5.4. Application: Hall Effect6 min

7.5.5. Hall Effect practice6 min

7.Q. Checkpoint Quiz4 Qns

7.P.1. Application: Cyclotron

7.P.2. Electric and magnetic fields on a proton

7.P.3. Force on a semicircular wire10 min

7.P.4. Comparing two circular motions in magnetic field

7.P.5. Magnetism and free body diagrams

8. Magnetism II (Biot-Savart, Ampere)

1.3hr

8.I. Chapter Intro57 sec

8.1.1. Magnetic fields from current-carrying wires6 min

8.1.2. Field from a wire4 min

8.1.3. Net magnetic field5 min

8.1.4. Force on a wire due to another wire5 min

8.1.5. Two wires, one levitates4 min

8.1.6. Quiz3 Qns

8.2.1. Biot-Savart Law3 min

8.2.2. Biot-Savart: current element3 min

8.2.3. Biot-Savart Law 8 min

8.2.4. On-axis Magnetic Field of a Circular Current Loop10 min

8.3.1. Ampere’s Law3 min

8.3.2. Ampere’s Law - single wire2 min

8.3.3. Ampere’s Law - solenoid5 min

8.3.4. Ampere’s Law - coax cable17 min

8.3.5. Ampere's Law - toroid4 min

8.3.6. Maxwell's Equations and displacement current

8.Q. Checkpoint Quiz3 Qns

8.P.1. Two long straight wires

8.P.2. Wire and a loop

8.P.3. Ampere for a sheet of current

8.P.4. Ampere and a shell of current

8.P.5. Varying current density

9. Magnetism III (induction)

1.3hr

9.I. Chapter Intro47 sec

9.1.1. Magnetic flux6 min

9.1.2. Magnetic Flux3 min

9.1.3. Faraday's Law and Lenz's Law

9.1.4. Magnetic Flux - concept clarifier

9.1.5. Motional emf (moving conductors)6 min

9.1.6. Induction concept clarifier3 min

9.1.7. Conductor on rails3 min

9.1.8. Motors, back emf, and generators7 min

9.2.1. Explaining changes in flux3 min

9.2.2. Expanding triangle6 min

9.2.3. Ampere's Law: Coax16 min

9.2.4. Terminal velocity and EM induction10 min

9.3.1. Inductors

9.3.2. Inductors in series and parallel

9.3.3. Inductance3 min

9.3.4. Inductance of a solenoid3 min

9.3.5. Inductance of coaxial cable7 min

9.Q. Checkpoint Quiz4 Qns

9.P.1. Induced emf directions

9.P.2. Rectangular loop and exponential field change

9.P.3. Cosine and sine fields with induced emf

9.P.4. Spinning ring and flux

9.P.5. Magnetic flux - slide and stop

10. Waves and optics

2.3hr

10.I. Chapter Intro56 sec

10.1.1. Transverse and longitudinal waves3 min

10.1.2. Wave functions, wavelength, wave number, wave speed12 min

10.1.3. Reflection at boundaries and interference4 min

10.2.1. Standing Waves4 min

10.2.2. Standing Waves6 min

10.2.3. Standing wave equation3 min

10.2.4. Air pipes and strings10 min

10.2.5. Example with one side open6 min

10.3.1. Beats and beat frequency3 min

10.3.2. Path difference and interference7 min

10.3.3. Loudspeaker7 min

10.3.4. Double-slit Interference Theory5 min

10.3.5. Double-slit Interference8 min

10.3.6. Locating double-slit interference6 min

10.3.7. Effective path difference (multiple materials)13 min

10.3.8. Water in front of a slit8 min

10.4.1. Refraction and Reflection Theory6 min

10.4.2. Phase shift at reflection boundaries1 min

10.4.3. Thin film Interference Theory4 min

10.4.4. Thin films - short example3 min

10.4.5. Thin films - longer example6 min

10.Q. Checkpoint Quiz6 Qns

10.P.1. Fringes with additional material

10.P.2. Organ pipe (open at both ends)14 min

10.P.3. Wave properties and equations

10.P.4. Vibrating string and pouring water

10.P.5. Resonance patterns and tension

11. EM waves, light, and optics

5min

11.I. Chapter Intro1 min

11.1.1. Maxwell's Equations

11.1.2. EM waves and the Poynting vector

11.1.3. Electromagnetic spectrum4 min

11.1.4. Photons

11.Q. Checkpoint Quiz5 Qns

11.P.1. Diamond submerged in water

11.P.2. EM wave properties

Mock Exams

ME.1. Mock Exam19 Qns

ME.2. Midterm 1 - Mock Assessment29 Qns

ME.3. Midterm 2 - Exam-like Practice Problem Set22 Qns

ME.4. Final Exam - Mock Assessment33 Qns

ME.1 Mock Exam

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