OUP Physics (IB)

Season 2

Stellar Parallax (IB)

An explanation of how the stellar parallax method can be used to calculate distances to stars, including the limitations of this method.

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10. Stellar Parallax (IB)

An explanation of how the stellar parallax method can be used to calculate distances to stars, including the limitations of this method.

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Compton Effect (IB)

A visual outline of the Compton Effect experiment, in which photons are scattered by electrons they hit. Includes context on what evidence this provides regarding the wave or particle nature of light.

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9. Compton Effect (IB)

A visual outline of the Compton Effect experiment, in which photons are scattered by electrons they hit. Includes context on what evidence this provides regarding the wave or particle nature of light.

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Motion of Charged Particles in a Uniform Magnetic Field (IB)

A visual explanation of the path of charged particles in a uniform magnetic field, according to their charge and their angle of entry into the magnetic field. Includes how to calculate the radius of the particle’s path.

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8. Motion of Charged Particles in a Uniform Magnetic Field (IB)

A visual explanation of the path of charged particles in a uniform magnetic field, according to their charge and their angle of entry into the magnetic field. Includes how to calculate the radius of the particle’s path.

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Methods of Charging (IB)

An outline of three ways electric charge can be moved between objects, including mention of how non-conducting objects can become charged.

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7. Methods of Charging (IB)

An outline of three ways electric charge can be moved between objects, including mention of how non-conducting objects can become charged.

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Doppler Effect (IB)

A visual explanation of the Doppler Effect as it applies to sound waves.

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6. Doppler Effect (IB)

A visual explanation of the Doppler Effect as it applies to sound waves.

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Resonance and Damping (IB)

An outline of natural frequencies, driving frequencies, the nature of resonance, and damping forces, with real-world examples.

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5. Resonance and Damping (IB)

An outline of natural frequencies, driving frequencies, the nature of resonance, and damping forces, with real-world examples.

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Greenhouse Effect (IB)

An outline of the energy balance model of the Earth-atmosphere system, including how to calculate the effect of greenhouse gases, and the atmosphere, on Earth’s average temperature.

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4. Greenhouse Effect (IB)

An outline of the energy balance model of the Earth-atmosphere system, including how to calculate the effect of greenhouse gases, and the atmosphere, on Earth’s average temperature.

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Thermal Conduction (IB)

A visual explanation of the factors which affect the rate of thermal energy transfer by conduction.

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3. Thermal Conduction (IB)

A visual explanation of the factors which affect the rate of thermal energy transfer by conduction.

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Conservation of Angular Momentum (IB)

An outline of the basic principle of conservation of angular momentum, illustrating the inverse relationship between angular velocity and moment of inertia, with real-world examples.

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2. Conservation of Angular Momentum (IB)

An outline of the basic principle of conservation of angular momentum, illustrating the inverse relationship between angular velocity and moment of inertia, with real-world examples.

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Collisions in Two Dimensions (IB)

A guide to understanding and applying the conservation of momentum, during collisions when the motion of the colliding bodies is not restricted to one dimension.

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1. Collisions in Two Dimensions (IB)

A guide to understanding and applying the conservation of momentum, during collisions when the motion of the colliding bodies is not restricted to one dimension.

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