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Physics II (Applied Physics)

Course CodeBSC210
Fee CodeS3
Duration (approx)100 hours
QualificationStatement of Attainment

Lesson Structure

There are 10 lessons in this course:

  1. Electromagnetic Induction
    • Introduction to Electricity
    • Rules of Charge
    • Coulomb’s Law
    • Magnetism
    • Electromagnetism
    • Electromagnetic Induction
    • Faraday’s Law of Electromagnetic Induction
    • Lenz’s Law
    • Fleming’s Rules
    • Eddy Currents
    • Transformers
    • Generators
    • Motors
  2. Power Generation and Transmission
    • Primary sources of Electrical Energy
    • Energy From the Water Head
    • Energy From Burning Fuels
    • Nuclear Energy
    • Wind Energy
    • Solar Energy
    • Types of Power Plants
    • Hydroelectric Power Plants
    • Thermal Power Plants
    • Nuclear Power Plants
    • Wind Power Plants
  3. Circular Motion and Gravitation
    • Lesson Introduction
    • Review of Circles – Radius, Diameter, Tangent, Arc, Circumference
    • Important Equations for Working with Circles
    • Circular Motion
    • Uniform Circular Motion
    • Time, Frequency, Position, Speed, Tangential Velocity, Centripetal Force
    • Centripetal Acceleration
    • Newton’s Law of Gravitation
    • Satellites and Kepler’s Laws
  4. Engineering Physics – Rigid Bodies and Rotational Dynamics
    • Rotational Motion
    • Degrees and Radians
    • Angular Position
    • Angular Displacement
    • Angular Velocity
    • Angular Velocity & Linear Velocity
    • Angular Acceleration
    • Kinematic Equations (Angular Acceleration)
    • Torque
    • Moment of Inertia
    • Angular Momentum
    • Kinetic Energy of Rotation
    • Rotational Energy, Work and Power
  5. Engineering Physics – Fluids and Fluid Dynamics
    • Fluid and Dynamics Introduction
    • Definitions and Properties
    • Density
    • Pressure
    • Flow
    • Steady and Unsteady Flow
    • Laminar Flow and Turbulent Flow
    • Open Flow
    • Open-channel Flow
    • Compressible and Incompressible Flow
    • Forces on Fluids
    • Pressure and Atmospheric Pressure
    • Water Pressure
    • Pressure Difference
    • Buoyant Forces
    • Pascal’s Law
    • Principles of Fluid Dynamics
    • The Equation of Continuity
    • Flow Rate and Its Relation to Velocity
    • Archimedes’ Principle
    • Bernoulli’s Theorem
    • Viscosity
    • Turbulence
  6. Relativity
    • The Principle of Relativity
    • Special Relativity
    • Space-time
    • Universal Speed Limit
    • Relativistic Mass
    • Time Dilation
    • Length Contraction
    • Doppler Effect on Wavelength
    • Applications
  7. Introduction to Imaging
    • Electromagnetic Radiation
    • Electromagnetic Spectrum
    • Comparison of EM Waves
    • Relationship Between Frequency and Wavelength
    • Relationship Between Frequency and Energy
    • Visible Light
    • The Wave Nature of Light
    • Properties of Light
    • Speed of Light
    • Reflection of Light
    • Refraction of Light
    • Snell’s Law
    • Diffraction of Light and Interference
    • Dispersion
    • Optional Image Formation
    • Lens Types
  8. Imaging instrumentation and Medical imaging
    • Types of Medical Imaging
    • Radiography
    • Computerised Tomography
    • Magnetic Resonance Imaging (MRI)
    • Ultrasound Imaging
    • Electron Microscopy
    • TEM
    • SEM
    • Nuclear Medicine
    • Positron emission Tomography
    • Single Photon Emission Computed Tomography
    • Bone Scan
    • Photoacoustic Imaging
    • Medical Imaging Instruments
    • CT, PET and MRI Scanners
    • Ultrasound Machine
    • Advantages and Disadvantages of Medical Imaging
  9. Fibre Optics
    • Introduction
    • Definitions
    • Construction of Optical Fibre Cable
    • Advantages and Disadvantages Fibre Optics
    • Fibre Characteristics
    • Mechanical Characteristics
    • Transmission Characteristics
    • Different Types of Fibres and Their Properties
    • Single and Multimode Fibres
    • Step Index and Graded Index Fibres
    • Principles of Light Propagation Through a Fibre
    • Refractive Index
    • Total Internal Reflection
    • Numerical Aperture
    • Acceptance Angle
    • Skew Mode
    • Applications of Fibre Optics
  10. Engineering Physics in Construction
    • Introduction to physics in construction
    • Surveying
    • Building Roads and Paths
    • Constructing Buildings
    • Basic Principles in Building Engineering Physics
    • Acoustics
    • Air Movement
    • Building Services
    • Climate
    • Construction Technology
    • Control of Moisture
    • Lighting
    • Thermal Performance
    • Properties of Common Materials
    • Definitions
    • Simple and Damped Harmonic Motion
    • Forced Oscillations
    • Vibrations Inside Built Structures
    • Vibrations From Outside Built Structures
    • Resonant Response and Damping

Each lesson culminates in an assignment which is submitted to the school, marked by the school's tutors and returned to you with any relevant suggestions, comments, and if necessary, extra reading.

Aims

  • Explain how electricity works, and how it relates to electromagnetic induction.
  • Explain different types of power generation.
  • Explain some of the advantages and disadvantages or certain types of power generation.
  • Explain the general principles of circular motion.
  • Explain the general principle of gravity and how it applies to satellites.
  • Explain the major principles of rotational motion.
  • Explain the relationship between rotational motion and power.
  • Define a fluid in physics terms.
  • Explain how fluids move and some of their applications in everyday life.
  • Explain the general principles of relativity and when they are used.
  • Explain how light moves and creates images people can see.
  • Explain some common medical imaging techniques and how they use light and sound to create images.
  • Explain how light moves through a fibre optic cable and factors that affect it.
  • Explain practical applications for fibre optics.
  • Explain practical applications for physics in the construction industry.

What You Will Do

  • Demonstrate moving electrons from one material to another via static electricity.
  • Research videos on electromagnetic induction online to “see” the relationship between electricity and magnetism for yourself.
  • Using the diagrams in this course as a guide, find an old piece of equipment that you can pull apart and identify the motor and its component parts.
  • Talk to a person about the energy sources they utilise.
  • Search online and watch videos of the inner workings of a power plant.
  • Try to test out tangential velocity for yourself. Start with a small stone, marble, or key.
  • Search online for videos of car racing and think about the forces in play. Draw a diagram showing the different forces acting on the car.
  • Find the measurement of a radian yourself.
  • Search online for videos of ice skaters performing spins, pay attention to the velocity – remember, the speed and direction – in how they start their spins.
  • Try to make a laminar flow with the balloon experiment.
  • Search for videos online on the physics of aeroplanes and air flow, look at the way the air moves and the factors affecting the wings and keeping the plane in the air.
  • Experiment with your own personal frames of reference.
  • Look at your own, or a friend’s, glasses. Consider questions outlined and take notes.
  • Search for funhouse optical illusion videos online and pay attention to the shape of the mirrors in the video and think about how they affect the images shown.
  • Think about a time you or a friend may have had a medical scan and talk with others on experiences with medical imaging. Ask them questions about it and make notes.
  • Select one of the medical imaging types and understand how the imaging type was developed, when, and what it is commonly used for.
  • Explore your house, school, or other accessible place for fibre optic cables. Note down your findings with a pen and paper.
  • Search online for the applications of fibre optics in your area. Take notes on your findings.
  • Talk to a builder or a surveying technician or anyone familiar with construction about the importance of surveying in construction. Share your opinion on the significance of planning in a construction project.
  • Recreate a simple pendulum experiment using a string and a ball and measure the time period T for the pendulum to complete one oscillation.




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