Physics


Physics

Physics
 
Course Code BSC206
Qualification Statement of Attainment
Payment Options Upfront & Payment Plans
Delivery Online & Correspondence
Duration 100 Hours

 
Course Information

A knowledge of Physics is Fundamental to Most Jobs Today

If you didn't learn enough about physics while at school; this can be an opportunity to learn now. 

  • Start any time
  • Study from anywhere and at your own pace

Develop a foundation to applying theoretical physics in any world situations, from engineering and environmental management to rural industries and health sciences.

Examining objects in motion and understanding the concepts of displacement, velocity, speed and acceleration is a great way to understand how physics work.

This course guides you through a journey of discovery, through reading, observing things, interacting with knowledgeable and experienced academics and discovering new ways of looking at the physical world around you. 

Lesson Structure

There are 10 lessons in this course:

  1. Review of Basic Algebra
    • Introduction
    • Equations and formulae
    • Variables
    • Quadratic equations
    • Graphing
    • Geometry
    • Triangles
    • Basic formulae
    • Quadrilaterals
    • Angles and radians
    • Logarithms and exponentials
    • Trigonometry
  2. Introduction: Scope and Nature of Physics
    • Observing, measuring, modeling, predicting
    • Units of measurement
    • Converting between units
    • Precision of measurements and identifying significant digits
  3. Forces and Mechanics
    • Physics and motion
    • Displacement
    • Speed and velocity
    • Acceleration
    • Force
    • Force of gravity
    • Work
    • Power
    • Energy
  4. Waves
    • What are waves
    • Properties of waves: longitudinal waves, transverse waves
    • Wave terminology
    • Relationship of frequency or period
    • Wave speed
    • Electromagnetic radiation and waves
    • Sound waves
    • Sound spectrum
    • Measuring sound
    • Speed of sound
    • Doppler effect
    • Standing waves and resonance
  5. Electricity and Magnetism
    • Electrostatics
    • Conductors and insulators
    • How to make an electroscope
    • Coulomb's law
    • The electric field
    • Electricity and electric circuits
    • Current
    • Voltage
    • Resistance
    • Power
    • Ohm's law
    • Circuits: series, parallel
    • Magnets
    • Magnetic forces
    • Ferromagnetism
    • Creating magnets
    • Earth's magnetic fiels
    • Geomagnetic reversal
    • Electromagnetism
    • Electromagnetism and solenoids
    • Electric motors
    • Magnetic force
    • Right hand rule
    • Inductors
    • Lenz's law
  6. Energy and Work
    • What is energy
    • Mechanical energy
    • Potential energy
    • Kinetic energy
    • Conservation of total energy and mechanical energy
    • Converting kinetic energy into potential energy
    • Work and force
    • Conservative and non conservative forces
    • Conservation of mass energy
  7. Fundamentals of Thermodynamics
    • Temperature measurement units
    • Fahrenheit
    • Celsius
    • Kelvin
    • Converting between units
    • What is heat
    • Heat transfers: thermal equilibrium
    • Thermal expansion and thermal contraction
  8. Light and Optics
    • What is light
    • Reflection
    • Refraction
    • Demonstration of refraction
    • Index of refraction
    • Difraction
    • The electromagnetic spectrum
    • How a rainbow forms
    • What are mirrors
    • Flat mirrors
    • Convex mirrors
    • Concave mirrors
    • Lenses
    • Converging lenses
    • Diverging lenses
  9. Nuclear Physics and Radioactivity
    • Structure of matter
    • The periodic table
    • What is radioactivity
    • Alpha radiation
    • Beta radiation
    • Gamma radiation
    • Radioactivity applications
    • Nuclear medicine -diagnostic and therapy
    • Radioactive tracers in agriculture
    • Food irradiation
    • Archeological and geological dating
    • Radiocarbon dating
    • Half life
    • Power generation
    • Radiation effects and injuries
    • Cancer and burns caused by radiation
  10. Astronomy, Cosmology and Astrophysics
    • What is astronomy
    • The pioneers of astronomy
    • The branches of astronomy
    • Sub fields of astronomy
    • Astronomy in our daily life
    • The most important discoveries in astronomy
    • What is Cosmology
    • How did cosmology evolve
    • Hubbles law
    • Cosmological principle
    • Calculate the age of the universe using the Hubble constant
    • What is astrophysics

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.


What sorts of things will you learn in this course?


Maths is the language of physics, that’s why any Physics course needs to contain "some" maths.

This is not a maths course though! (We review basic and relevant maths in the first lesson).

 

Much of physics is about explaining physical phenomena and being able to create predictive mathematical models or theories to explain why things occur as they do and be able to predict future results in a reliable manner.

 

 

Learn to Understand Motion

 

Examining objects in motion and understanding the concepts of displacement, velocity, speed and acceleration is a great way to understand how physics work. It is the study of motion which began since 400 years that gave birth to the science of physics, and is often known as “kinematics”. There are only a few mathematical equations that you need to know in this section and they are relatively simple and straight forward and easy to remember.

What are Waves?

Simply put waves are a form of energy travelling from one place to another; for example think of the sun, it is very far away yet its light and heat reaches earth, think of hitting a snare drum; the sound travels to your ears. These are only two examples of waves but there are many more. Unfortunately sound waves and radio waves can’t really be seen, this makes them hard to describe, however one can visualize how waves behave when dropping a stone into water.

What are Electrostatics?

Over the past few decades, people’s dependency on electricity has witnessed an exponential growth, compared with the past century where people only used a few electric lights. However, scientists began to study and research electricity long before electric lamps were invented. These studies and observations date back to the days of ancient Greeks when they observed that rubbing amber would allow it to attract smaller objects such as feathers. To better understand electricity, we need to start with understanding electrostatics which is the study of electric charges at rest.

Understanding Energy

The energy of an object can be defined as the potential of that object to do work. This has relevance to kinetic energy, potential energy and other types of energy, such as chemical, electrical, nuclear and thermal energy. To further understand the concept of energy, consider a ball rolling on the ground. If you apply a force to the ball and increase its rolling speed, you are actually doing work on the ball which results in an increase in the ball’s energy. So as you can see, work and energy are inter-related and in this lesson you will learn how to calculate the work done on an object as well as the amount of potential and kinetic energy that object possesses at any point in time.

Learn more about things like this by studying this course; starting any time, and working through it at a pace that suits your own abilities.

For more information get your free course information pack today!

Finance options

If you are an Australian citizen you may be eligible to receive financial support, meaning you can defer payment of your course fees. Additionally, if you are an Australian resident you may also be eligible to receive Abstudy/Austudy or Youth Allowance.

Student support

We live in a society where the pressures of daily living are high with financial expenses, personal and work commitments, and mortgage and rental obligations. Then there are the unexpected life challenges that also get thrown our way. With this in mind the thought of taking on study can be daunting for most people. Here at Learning Cloud we understand that life doesn’t run in a straight line it has many ups and downs.

As an enrolled student at Learning Cloud, you are entitled to access a variety of non-academic support services from the Student Services Unit. These supports are designed to walk beside you throughout your studies they will assist you in life’s ups and downs to provide you the best opportunity to successfully complete your chosen course.

STUDENT SERVICES PROGRAMS INCLUDE:

  • Careers Counselling Service
  • General Counselling Service
  • Disability Liaison Service
  • Retention & Engagement Service
  • Student Activities
  • Accommodation
  • Disabled Australian Apprentice Wage Subsidy (DAAWS)
  • E Counselling
  • Your-Tutor
  • Parent support
  • Reasonable Adjustment Plan (RAP)

Call our student support today on 1300 650 569 or Email Faculty

Get more information

Want more information about financial and student support? Fill out the enquiry form to the right and a study consultant will contact you with the details you need.

How will this course advance my career?

Learning Cloud programs have been developed in response to industry demand and are specifically designed to equip graduates with work-ready skills. Each participant will be trained and assessed in theory and in practical tasks and Real-world exercises are used throughout the program.

Studies prove, time and again, that college-educated workers earn more than those with only a high school qualification. College graduates often enjoy additional benefits, including greater job opportunities and promotions. Though the proof for greater earning potential exists, some might wonder whether the cost of the education warrants the overall expense in the long run.

College Graduate vs. Non-Graduate Earnings

The National Centre for Education Statistics (NCES) analyses employee earnings data biennially, according to education level. Findings indicate that workers with a qualification earn significantly more than those without. Since the mid-1980s, education has played a large part in potential wages, with bachelor's degree holders taking home an average of 66% more than those with only a high school diploma do. While college-educated workers' wages have increased over the past two decades, those with only a high school education have seen decreases in annual salaries in the same time period (nces.ed.gov).

How else will I benefit from studying with Learning Cloud?

  • Studying online or distance means you can study where you want and at your own pace.
  • Receive career-focused training with practical, hands-on learning.
  • All course materials are provided and all digital platforms are interactive, work on any device and designed to be fun.
  • Recognition of Prior Learning or Skills Recognition may be available for previous work experience, formal training or qualifications in this field.

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