Fundamentals of Physics and Nuclear Science

Name: Fundamentals of Physics and Nuclear Science
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📋 Course Outline

Energy stores, transfers and equations
Electricity, circuits and mains power
Particle model and density
Atomic structure and nuclear radiation

📖 1. Energy stores, transfers and equations

🔑 Key Concepts & Definitions

Kinetic energy : Kinetic energy is the energy a moving object has due to its speed.
Gravitational potential energy : Gravitational potential energy is the energy an object has because of its height in a gravitational field.
Thermal energy transfer : Thermal energy transfer is energy moved because of a temperature difference, often described using heating equations.
Efficiency : Efficiency is the fraction of total energy input that becomes useful output energy.

📝 Essential Points

Kinetic energy is given by $KE=\tfrac{1}{2}mv^2$ where $m$ is mass and $v$ is speed.
Gravitational potential energy changes with height as $GPE=mgh$ where $g$ is gravitational field strength.
Specific heat capacity links energy transfer to temperature rise using $\Delta E=mc\Delta\theta$ .
Latent heat uses $\Delta E=mL$ for the energy transferred during a change of state.
Electric and nuclear energy are transferred via electricity and radiation, respectively, while mechanical transfer and heating also occur.
Efficiency is calculated as useful energy divided by total energy, matching the exam equation form useful/total.

💡 Memory Hook

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Prévia do quiz

1. Which equation gives the kinetic energy of a moving object in terms of its mass and speed?

2. What is the efficiency of a device defined as?

3. In a series circuit, how does the current behave through the components?

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Prévia dos flashcards

Energy store — types?

Kinetic, potential, thermal, nuclear, chemical.

Energy transfer — equation?

Depends on the process; e.g., KE, GPE, heat transfer.

Electric power — formula?

P=VI, power equals voltage times current.

Series circuit — current?

Same current everywhere.

Parallel circuit — voltage?

Same voltage across all branches.

Density — formula?

Density = mass/volume.

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