Quantum Tunneling
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Physics 12, SPH4U
Module 1: Dynamics
>
Lesson 1: Motion and Motion Graphs
Lesson 2: Equations of Motion
Lesson 3: Displacement in Two Dimensions
Lesson 4: Velocity and Acceleration in Two Dimensions
Lesson 5: Projectile Motion
Lesson 6: Relative Motion
Lesson 7: Forces and Free Body Diagrams
Lesson 8: Newton's Laws of Motion
Lesson 9: Applying Newton's Laws of Motion
Lesson 10: Forces of Friction
Lesson 11: Inertial and Non Inertial Frames of Reference
Lesson 12: Centripetal Acceleration
Lesson 13: Centripetal Force
Module 1 Assessment
Module 2: E and P
>
Lesson 1: Work Done by a Constant Force
Lesson 2: Kinetic Energy and Work Energy Theorem
Lesson 3: Gravitational Potential Energy
Lesson 4: The Law of Conservation of Energy
Lesson 5: Elastic Potential Energy and SHM
Lesson 6: Springs and Conservation of Energy
Lesson 7: Momentum and Impulse
Lesson 8: Conservation of Momentum in One Dimension
Lesson 9: Collisions
Lesson 10: Head-on Elastic Collisions
Module 2 Assessment
Module 3: Fields
>
Lesson 1: Newtonian Gravitation
Lesson 2: Orbits
Lesson 3: Electric Force
Lesson 4: Electric Fields
Lesson 5: The Milikan Oil Drop Experiment
Lesson 6: Magnets
Lesson 7: Magnetic Force on Moving Charges
Lesson 8: Motion of Charged Particles in Magnetic Fields
Module 3 Assessment
Module 4: Light
>
Lesson 1: Properties of Waves and Light
Lesson 2: Refraction and Total Internal Reflection
Lesson 3: Diffraction and Interference of Water Waves
Lesson 4: Interference of Light Waves
Lesson 5: Electromagnetic Radiation
Module 4 Assessment
Module 5: Revolution
>
Lesson 1: The Special Theory of Relativity
Lesson 2: Time Dilation
Lesson 3: Consequences of Special Relativity
Lesson 4: Quantum Theory
Lesson 5: Photons
Lesson 6: Matter Waves
Module 5 Assessment
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Home
Physics 12, SPH4U
Module 1: Dynamics
>
Lesson 1: Motion and Motion Graphs
Lesson 2: Equations of Motion
Lesson 3: Displacement in Two Dimensions
Lesson 4: Velocity and Acceleration in Two Dimensions
Lesson 5: Projectile Motion
Lesson 6: Relative Motion
Lesson 7: Forces and Free Body Diagrams
Lesson 8: Newton's Laws of Motion
Lesson 9: Applying Newton's Laws of Motion
Lesson 10: Forces of Friction
Lesson 11: Inertial and Non Inertial Frames of Reference
Lesson 12: Centripetal Acceleration
Lesson 13: Centripetal Force
Module 1 Assessment
Module 2: E and P
>
Lesson 1: Work Done by a Constant Force
Lesson 2: Kinetic Energy and Work Energy Theorem
Lesson 3: Gravitational Potential Energy
Lesson 4: The Law of Conservation of Energy
Lesson 5: Elastic Potential Energy and SHM
Lesson 6: Springs and Conservation of Energy
Lesson 7: Momentum and Impulse
Lesson 8: Conservation of Momentum in One Dimension
Lesson 9: Collisions
Lesson 10: Head-on Elastic Collisions
Module 2 Assessment
Module 3: Fields
>
Lesson 1: Newtonian Gravitation
Lesson 2: Orbits
Lesson 3: Electric Force
Lesson 4: Electric Fields
Lesson 5: The Milikan Oil Drop Experiment
Lesson 6: Magnets
Lesson 7: Magnetic Force on Moving Charges
Lesson 8: Motion of Charged Particles in Magnetic Fields
Module 3 Assessment
Module 4: Light
>
Lesson 1: Properties of Waves and Light
Lesson 2: Refraction and Total Internal Reflection
Lesson 3: Diffraction and Interference of Water Waves
Lesson 4: Interference of Light Waves
Lesson 5: Electromagnetic Radiation
Module 4 Assessment
Module 5: Revolution
>
Lesson 1: The Special Theory of Relativity
Lesson 2: Time Dilation
Lesson 3: Consequences of Special Relativity
Lesson 4: Quantum Theory
Lesson 5: Photons
Lesson 6: Matter Waves
Module 5 Assessment