Welcome to PHY 1121! This on-demand course was put together especially for PHY 1121 at uOttawa. Use the video lessons and notes to understand your lecture topics better, and the practice questions to cement your knowledge. And don't hesitate to leave a question in the Q&A box under each lesson if you need additional help with anything. Happy studying!
PHY 1121
uOttawa
Course Overview
Lessons & Practice
I. Welcome
1 min1. Foundations / Introduction / Measurement
55min2. Introduction to Vectors
1.2hr3. Motion in 1/2/3D: Kinematics
4hr4. Newton's Laws of Motion: Forces and Dynamics
4hr4.12.1. Magnetic Force 8 min4.12.2. Example: Magnetic Force on a moving charge (Lorentz force)3 min4.12.3. Example: Magnetic Force on an Electron7 min4.12.4. Practice: Magnetic Force on Moving Charged Particles:7 min4.12.5. Practice: Magnetic Field and Current Carrying Wires6 min4.12.6. Practice: Charge Entering a Magnetic Field 3 min
5. Circular Motion
1.5hr6. Work and Energy
2.8hr7. Momentum, Impulse and Collisions
1.9hr8. Angular / Rotational Motion
4hr9. Periodic Motion: Oscillations
5hr9.2.1. Velocity and Acceleration in SHM (Advanced)7 min9.2.2. Velocity and Acceleration in SHM (Basic)10 min9.2.3. Finding Acceleration by Knowing Displacement (Advanced)6 min9.2.4. Example: SHM with mass on a spring9.2.5. Practice: Oscillations - Displacement Function7 min9.2.6. Practice: Oscillations - Acceleration Graph
10. Waves: Mechanical
43min11. Fluid Mechanics
52min12. Wave Optics
13. Magnetic Induction
1.5hr14. Modern Physics
1hr14.11.1. Lorentz Transformations14.11.2. Time Dilation and Length Contraction2 min14.11.3. Example: Special Relativity1 min14.11.4. Practice: Special Relativity59 sec14.11.5. Relativistic Velocity Transformations54 sec14.11.6. Relativistic Momentum and Energy14.11.7. Practice: Special Relativity5 min
15. Magnetic Fields and Magnetic Force
2.6hr15.3.1. Circular Motion in a Magnetic Field3 min15.3.2. Example: Circular Motion in a Magnetic Field3 min15.3.3. Example: Circular Motion in a Magnetic Field1 min15.3.4. Practice: Circular Motion in a Magnetic Field4 min15.3.5. Practice: Circular Motion in a Magnetic Field2 min15.3.6. Practice: Helical Motion in a Magnetic Field7 min
15.11.1. Ampere’s Law1 min15.11.2. Example: Ampere’s Law3 min15.11.3. Example: Ampere’s Law4 min15.11.4. Practice: Ampere's Law - shell15.11.5. Practice: Ampere's Law - coax7 min15.11.6. Practice: Ampere's Law - toroid3 min15.11.7. Practice: Ampere's Law - sheet8 min15.11.8. Practice: Ampere's law - variable density5 min
16. Electric Potential and Potential Energy
3hr16.4.1. Electric Potential of Continuous Charge Distributions2 min16.4.2. Example: Electric Potential of a Rod (on-axis)4 min16.4.3. Practice: Electric Potential of a Rod (off-axis)16.4.4. Practice: Rod with Positive and Negative Charge2 min16.4.5. Practice: Electric Potential at the Center of a Half-Ring4 min16.4.6. Practice: Electric Potential of a Ring3 min16.4.7. Practice: Electric Potential of a Disk11 min
16.6.1. Equipotential Lines and Surfaces3 min16.6.2. Example: Drawing Equipotential Lines2 min16.6.3. Practice: Drawing Equipotential Lines3 min16.6.4. Practice: Equipotential lines and work done2 min16.6.5. Practice: Electric Potential and Equipotentials5 min16.6.6. Practice: Conductors, Charge, and Electric Potential6 min
16.9.1. Relationship Between Electric Field and Potential (with calculus)3 min16.9.2. Example: Electric Field from a Potential3 min16.9.3. Practice: Electric Potential and Potential Energy of a Conducting Sphere4 min16.9.4. Practice: Electric Potential and Potential Energy of an Insulating Sphere7 min16.9.5. Practice: Electron Moving Away from Cylindrical Insulator8 min16.9.6. Practice: Electric Potential of a Spherical Conducting Shell5 min
17. AC Circuits
2.5hr18. Geometric Optics
1.1hr19. DC Circuits
4hr20. Electrostatic Forces and Electric Fields
4hr20.7.1. Finding Electric Field with Integrals3 min20.7.2. Example: Electric Field from a Rod9 min20.7.3. Example: Electric Field from a Rod (off-axis)20.7.4. Practice: Rod with Nonlinear Charge Density8 min20.7.5. Practice: Rod with Positive and Negative Charge9 min20.7.6. Practice: Rod Electric Field Without Symmetry14 min
20.13.1. Gauss's Law with Spherical Symmetries1 min20.13.2. Example: Gauss's Law for a Spherical Symmetry3 min20.13.3. Practice: Charges on a Hollow Conducting Sphere4 min20.13.4. Practice: Gauss's Law for a Spherical Insulator10 min20.13.5. Practice: Electric Field with an Off-Center Spherical Cavity (hard!)11 min
21. Equilibrium & Elasticity
1.7hr22. Sound & Hearing
15min23. Motion in Two Dimensions
2.9hr24. Force Vectors (Advanced Info)
7hr24.2.1. Scalars & Vectors - Definitions & Examples3 min24.2.2. Vectors (2D)12 min24.2.3. Vectors (3D)6 min24.2.4. Examples: Scalars and Vectors (Sine and Cosine Laws)13 min24.2.5. Practice: Scalars and Vectors (Sine and Cosine Laws)10 min24.2.6. Practice: Scalars and Vectors (Catesian Format, Sine Law)16 min24.2.7. Example: Scalars and Vectors (Rectangular Components)13 min24.2.8. Practice: Scalars and Vectors (Rectangular Components) 11 min
24.6.1. Forces 3D Cartesian Form (IMPORTANT!)11 min24.6.2. Example 1 - Part 1: 3D Force Vectors 11 min24.6.3. Example 1 - Part 2: 3D Force Vectors 7 min24.6.4. Example 2: 3D Force Vectors13 min24.6.5. Practice 1: 3D Force Vectors10 min24.6.6. Practice: 3D Vector Practice Questions Part 15 min24.6.7. Practice: 3D Vector Practice Questions Part 26 min24.6.8. Example: Forces in Cartesian Vector Form16 min
24.10.1. Vector Addition and Subtraction: Algebraic Method 54 sec24.10.2. Vector Addition and Subtraction: Graphic Methods9 min24.10.3. Example: Vector Addition6 min24.10.4. Practice: Algebraic Addition4 min24.10.5. Practice: Resultant of 2 Vectors1 min24.10.6. Practice: Vector Addition and Subtraction
PHY 1121 Overview

0:00 / 0:00
Get Started
Up Next
Course Notes


Wizeprep's course notes with hundreds of easy-to-understand explanations, diagrams, and practice problems.
Course Notes


Wizeprep's course notes with hundreds of easy-to-understand explanations, diagrams, and practice problems.