The Complete High School and College Physics from Udemy

What's inside

Learning objective

College and high school physics

Syllabus

Course Introduction

Welcome

Fundamental and Derived units

Course overview

Define Fundamental and Derived Quantities and Units.

Find the dimensions of a mathematical expression involving physical quantities.

Determine whether an equation involving physical quantities is dimensionally consistent.

Solve Examination Questions on Fundamental and Derived Quantities.

System Of measurement, fundamental and derived units.

Derivation of quantities and units

Derivation of units and conclusion

Scalars and vectors

Define scalar and vector quantities.

Give examples of scalar and vector quantities.

Carry out operations such as: representation of vectors, addition of vectors in the same or different directions, combination of vectors by resolution.

Concept of scalars and vectors

Addition of vectors

Addition and application of vectors

Resolution of vectors

Motion

Define motion.

Explain the types of motion.

Define terms used in motion.

Explain motion time graph.

Solve problems on motion time graph.

Apply the equations of motion.

Concept of motion

Terms and equations of motion

Applications of the equations of motion

Calculations on motion

Gravitational field

Objectives

Newton's law of gravitation

Gravitational Potential

Escape velocity and applications

Equilibrium of forces

Explain the concept of equilibrium.

Define moment of a force.

State and apply the principle of moment.

Explain the concept of centre of gravity.

Describe the stability of a body.

Solve questions on equilibrium of forces.

Concept of equilibrium, principle of moment and moment of force

Application of moment of forces

Moment of couple and applications

Triangle of forces and centre of gravity

Work, Energy and Power

Define work, energy and power

Explain the concept of renewable and non-renewable resources

Solve problems involving work, energy and power

Energy

Power

Work

Machines

Define the term ‘Machine’.

List examples of simple machines.

Define the various term associated with simple machines.

Solve various mathematical problems involve in machines.

Machines and terms used in machines

Lever

Pulleys

Inclined planes

Elastic properties of solids

Define elasticity

State Hooke's law

Define and explain basic terms used in elasticity

Solve questions on elastic properties of solids

Concept of elasticity and Hooke's law

Applications of elasticity

Density and Pressure

Define density and state its units

Define relative density

Explain the concept of pressure

State Archimedes principle and law of floatation

Density, relative density and states of matter

Calculation on density and pressure

Archimedes principle, law of floatation and pressure in solids

Pressure in liquids, pascal's principle, and Hare's principle

Temperature and it's measurements

Define temperature and its units

Explain the various types of thermometer

Highlight the effects of heat

Solve problems involving temperature conversion

Temperature and Thermometer

Comparing thermometer scales

Effects of heat

Thermal expansion

Define linear expansion

Define area expansion

Define volume expansion

Explain real and apparent expansion

List applications of thermal expansion

Linear and area expansivity

Cubic expansivity

Application of expansion of solids and liquids

Gas laws

State the gas laws.

Show the relationship between quantities of gas laws.

Solve mathematical problems involving gas laws.

Introduction and Boyle's law

Charle's law

Pressure Law

General gas equation and application

Measurement of heat

Define heat energy

Explain the concept of specific heat capacity of a material

Explain the methods of measuring specific heat capacity

Explain temperature difference in a waterfall

Heat energy and Specific heat capacity

Methods of measuring spec. heat capacity

Temperature difference in water falls

Latent heat

Define latent heat and specific latent heat of fusion

Describe latent heat of vapourization

Explain the application of latent heat

Solve questions on latent heat

Applications of latent heat

Change of state

Explain the concept of change of states of matter

Describe the various changes that matter undergo

Give examples of the various change of the state of matter

Outline the applications of change of states

Change of states and application of pressure

Boiling, evaporation and sublimation

Waves

Define waves

Explain the major class of waves

State and explain the properties of waves

Differentiate between transverse and longitudinal waves

Solve mathematical problems involving wave equations

Concept of waves

Types and propagation of waves

Sound waves

Explain the concept of sound waves.

Distinguish between noise and music.

Explain the concept of forced vibration.

Solve questions involving sound waves.

Propagation and characteristics of sound waves

Applications of sound waves

Basic terms in sound waves

Vibration of strings

Harmonics

Vibration of air columns in pipes

Vibration in open pipes and resonance tubes

Light waves

State and explain the various sources of light.

Explain transmission of light.

Define magnification and solve mathematical problems involving magnification.

Explain critical angle and total internal reflection.

Solve problems involving convex and concave mirrors.

Characteristics, sources and transmission of light

Propagation of light and solar eclipse

Magnification

Reflection of light from plane surfaces

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in The Complete High School and College Physics with these activities:

Review Basic Algebra

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Strengthen your algebra skills to better understand the mathematical concepts used in physics.

Browse courses on Algebra

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Review solving linear and quadratic equations.
Practice manipulating algebraic expressions.
Work through example problems involving algebra.

Read 'Physics for Scientists and Engineers'

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Supplement your learning with a comprehensive physics textbook that covers all the core concepts.

View Physics for Scientists and Engineers, Cengage... on Amazon

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Read the chapters relevant to the course syllabus.
Work through the example problems in each chapter.
Attempt the end-of-chapter exercises.

Solve Kinematics Problems

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Reinforce your understanding of motion by solving a variety of kinematics problems.

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Find practice problems online or in textbooks.
Solve problems involving constant acceleration.
Solve problems involving projectile motion.

Four other activities

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Create a Physics Concept Map

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Organize and visualize the relationships between different physics concepts covered in the course.

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Identify the key concepts from each module.
Draw connections between related concepts.
Refine the map to show a clear hierarchy.

Explore 'Six Easy Pieces' by Richard Feynman

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Gain a deeper understanding of fundamental physics concepts through Feynman's engaging explanations.

View Six Not-So-Easy Pieces: Einstein's Relativity,... on Amazon

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Read one chapter per week after the corresponding course module.
Reflect on how Feynman's explanations clarify the concepts.

Build a Simple Electric Motor

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Apply your knowledge of electromagnetism by building a functional electric motor.

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Research the basic principles of electric motors.
Gather the necessary materials (wire, magnets, battery).
Follow instructions to assemble the motor.
Troubleshoot any issues and refine the design.

Tutor a Student in Physics

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Solidify your understanding of physics by explaining concepts to someone else.

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Offer assistance to classmates or younger students.
Prepare explanations and examples for common problem areas.
Provide constructive feedback and encouragement.

Career center

Learners who complete The Complete High School and College Physics will develop knowledge and skills that may be useful to these careers:

Physics Teacher

A Physics Teacher shares their passion for the subject with students, which is similar to this course that aims to demystify Physics. This course covers core concepts like matter, motion, energy, waves, and nuclear physics, which a Physics Teacher would need to be familiar with. By going through this course, you may be able to gain clarity across different Physics topics. Knowledge of high school and college level Physics is necessary to teach the subject. This course may give you the boost needed to effectively teach the subject and better explain these principles yourself.

See salaries and explore the career path for Physics Teacher

Science Tutor

A Science Tutor provides individualized instruction in scientific subjects, and this course may be a great way to start. This course covers core physics concepts like motion, energy, waves, and fields. A Science Tutor often reviews material with students, clarifies concepts, and helps them solve problems. With the help of this course, one may gain a fundamental understanding of Physics. The course also may give you a refresher on Physics principles, which helps in tutoring students. This is especially true for those seeking to tutor high school and college students.

See salaries and explore the career path for Science Tutor

Aerospace Engineer

An Aerospace Engineer designs, develops, and tests aircraft and spacecraft. A thorough understanding of physics, especially mechanics, thermodynamics, and electromagnetism, is essential. This course covers core physics concepts like motion, energy, fields, and waves. The knowledge you gain from this course may allow you to tackle complex problems in aerospace engineering with a solid physics grounding. This course may serve to enhance your understanding of these critical principles.

See salaries and explore the career path for Aerospace Engineer

Physics Demonstrator

A Physics Demonstrator shows fundamental physics principles to students using innovative demonstrations. These demonstrations are designed to engage students and improve their understanding of complex physics concepts. The physics principles covered in this course, such as motion, energy, and waves, are commonly used in such demonstrations. By understanding these principles, a Physics Demonstrator can create meaningful and insightful demonstrations. This course will also reinforce the concepts you may want to demonstrate, making your demonstrations even more useful and educational. This course may be particularly useful for those looking to demonstrate these principles.

See salaries and explore the career path for Physics Demonstrator

Mechanical Engineer

A Mechanical Engineer researches, designs, develops, manufactures, and tests mechanical devices and systems. Physics, especially mechanics, thermodynamics, and materials science provides insight into mechanical engineering. This course covers core concepts of matter, motion, time, energy, waves, and fields. This background may enhance a Mechanical Engineer's ability to design and analyze mechanical systems. This course may serve to improve your appreciation of different mechanical processes.

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Laboratory Technician

A Laboratory Technician assists scientists and researchers in conducting experiments and analyses, which may involve Physics principles. Technicians provide support by setting up experiments, operating equipment, and collecting data. This course covers core concepts of matter, motion, time, energy, and waves, which are useful in this role. This course may provide a strong foundation in physics that may be useful in lab work, offering a comprehensive review. A Lab Technician can use this knowledge to ensure accuracy and safety in experiments.

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Sound Engineer

A Sound Engineer records, mixes, and manipulates sound for various applications. This course includes discussions of sound waves and their properties. This may enhance your understanding of the physics of sound, which is essential for this role. This course may help you grasp the fundamental physics principles behind sound recording and manipulation. This gives you a strong foundation for a career in audio engineering and music production.

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Research Assistant

A Research Assistant supports research projects, often in a university or laboratory setting. Assistants often conduct experiments, analyze data, and help write reports. This course covers core concepts of motion, energy, waves, and fields. This background may enable a Research Assistant to better understand the scientific principles behind their work. Specifically, the course gives you a refreshed foundation in high school and college physics. This is particularly useful in Physics or Engineering research. This is most often a role that requires an advanced degree.

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Science Communicator

A Science Communicator explains complex scientific topics to the general public through different mediums like writing, presentations, or social media. A Science Communicator role requires that you have a strong foundation in science, covering topics like motion, time, energy, waves, and fields. This knowledge may also greatly assist when communicating physics concepts to the public. This course may strengthen your understanding of physics. This is a helpful skill for simplifying intricate theories and making them accessible.

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Science Writer

A Science Writer communicates scientific information to the public through articles, blog posts, and other written content. The breadth of scientific knowledge covered in this course, from matter and motion to energy and waves, may provide a background for writing about various physics-related topics. This course may help improve your understanding of physics concepts. This offers you the ability to write accurately and engagingly about scientific breakthroughs and concepts.

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Civil Engineer

A Civil Engineer designs, constructs, supervises, operates, and maintains infrastructure projects and systems in the public and private sector. This course covers core concepts of matter, motion, energy, waves, and fields. This gives a Civil Engineer a strong foundation. The emphasis on problem-solving and analytical skills in physics may be relevant to structural analysis and design. A course on Physics may bring the principles of motion and energy into sharp focus.

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Patent Attorney

A Patent Attorney works with inventors to protect their inventions, which may involve understanding the underlying science and technology. This course, covering core concepts of matter, motion, time, energy, waves, fields, and nuclear physics, may be helpful for understanding the scientific principles behind inventions. This course may give you a good grasp of the principles encountered in patent applications. This position often requires a science background, in addition to a law degree, as well as registration to practice before the U.S. Patent and Trademark Office.

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Technical Consultant

A Technical Consultant provides expert advice and guidance to businesses on technical issues, which may involve physics. Understanding concepts such as motion, time, energy, waves, and fields can be valuable. This course may provide a broad understanding of different areas within physics. This understanding may allow you to address technical challenges and provide solutions to clients. This course may give you the depth to understand and communicate complex physics topics.

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Software Developer

A Software Developer creates software applications, and the problem-solving skills learned through physics can be valuable in this role. This course addresses concepts of motion, time, energy, waves, and fields. Grasping these concepts can help a Software Developer when modeling physical systems or developing simulations. With the foundations provided in the course, you may gain skills applicable to software development, especially in areas like game development or scientific modeling.

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Data Scientist

A Data Scientist analyzes large datasets to extract meaningful insights, and the analytical skills gained from studying physics can be very useful. This course covers core concepts of motion, time, energy, waves, and fields. The problem-solving and analytical thinking developed through physics in this course may be beneficial in data analysis. This course may provide the foundation for approaching complex datasets. This knowledge may lead to more effective data interpretation and model building.

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The Complete High School and College Physics

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