The Complete AP and College Physics Course from Udemy

What's inside

Learning objectives

One dimensional kinematics
Two dimensional kinematics
Forces and newton's laws of motion
Work and energy
Linear momentum and collisions
Rotational motion
Gravitation
Fluid mechanics
Oscillations and waves
Heat and temperature

Thermodynamics
Electrostatics and electricity
Magnetism and electromagnetism
Optics and light
Special relativity
Introduction to the quantum world
Atomic and nuclear physics
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One dimensional kinematics
Two dimensional kinematics
Forces and newton's laws of motion
Work and energy
Linear momentum and collisions
Rotational motion
Gravitation
Fluid mechanics
Oscillations and waves
Heat and temperature
Thermodynamics
Electrostatics and electricity
Magnetism and electromagnetism
Optics and light
Special relativity
Introduction to the quantum world
Atomic and nuclear physics
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Show less

Syllabus

Acceleration, Instantaneous Velocity and Graphs

AP Physics: Introduction

Course Overview

Basic Trigonometry Review

Vectors and Scalars

Cosine Rule and Triangle Law

One Dimensional Kinematics

Average Speed and Average Velocity

Free Fall

Practice Exercises

Two Dimensional Kinematics

Horizontally Launched Projectiles

Projectile Launched at An Angle

Forces and Newtons's Laws

Introduction To Forces

Newton’s First Law of Motion

Newton's Second Law of Motion

Newton’s Third Law of Motion

Weight and Normal Force

Inclined Planes

Friction

Uniform Circular Motion And The Centripetal Acceleration

Central Forces

Angular Momentum and It's Conservation

Work and Energy

Work

Potential and Kinetic Energy

Potentiel and Kinetic Energy in a Pendulum

Hooke's Law

Work-Energy Theorem

Conservation of Energy

Linear Momentum and Collisions

Linear Momentum and Impulse

Conservation of Linear Momentum

Collisions

Center of Mass

Rotational Motion

Torque

Angular Position, Displacement, Velocity and Acceleration

Rotational Equilibrium

Moment of Inertia

Gravitation

Kepler's Laws of Planetary Motion

Newton’s Law of Universal Gravitation

Satellites Orbit

Gravitational Potential Energy in Space and The Escape Velocity

Derivation of GPE In outer Space(Calculus)

Fluid Mechanics

Introduction To Fluid Mechanics: Fluid Statics

Pascal’s Principle

Archimedes Principle

Flow Rate

Bernoulli’s Principle

Heat and Temperature

Introduction to Thermal Physics

Heat Transfer and Temperature Change

Phase Changes

Thermal Expansion

Mechanisms of Heat Transfer

Charle's Law and Boyle's Law

Ideal Gas Law

The Kinetic Theory of Gases

Thermodynamics

Introduction To Thermodynamics and The Zeroth Law

First Law of Thermodynamics

Thermodynamic Processes

Second Law of Thermodynamics

The Heat Engine and The Carnot Cycle

Oscillations and Waves

Introduction To Oscillating Motion

Writing The Equation For a Sinusoidal Wave

Acceleration Equation of a Sine Wave and Proof of The Period Formula (Calculus)

Damped Oscillations

Transverse Waves

Longitudinal Waves: Sound

Superposition, Destructive and Constructive Interference

Standing Waves

Reflection Of Waves On a String

Resonance

Doppler Effect

Electricity and Electrostatics

Electric Charge and Conservation of Charge

Coulomb's Law

Superposition of Charges

The Electric Field

Electric Potential Energy

Electric Potential

Work Done On a Charge at Infinite Distance (Calculus)

Conductors and Insulators

Electric Current

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Covers a wide range of topics from Newtonian mechanics to quantum mechanics, aligning well with the AP Physics curriculum and introductory college physics

Includes PHET simulations, which can help students visualize complex physics concepts and make learning more engaging and interactive

Offers over 300 practice exercises, including MCQs and numerical problems, providing ample opportunity for students to test their understanding and problem-solving skills

Provides video and PDF solutions to practice problems, allowing students to learn from their mistakes and reinforce their understanding of the concepts

Requires a review of basic trigonometry, which may pose a challenge for students who lack a solid foundation in this area of mathematics

Includes calculus-based derivations, which may be challenging for students without a background in calculus, despite being presented in video format

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 AP and College Physics Course with these activities:

Review Basic Trigonometry

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Reinforce your understanding of trigonometric functions and identities, which are essential for solving physics problems involving angles and vectors.

Browse courses on Trigonometry

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Review trigonometric ratios (sine, cosine, tangent) and their relationships.
Practice solving right triangle problems using trigonometric functions.
Review trigonometric identities and their applications.

Review Vector Addition and Subtraction

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Strengthen your skills in vector manipulation, which is crucial for understanding kinematics, forces, and fields in physics.

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Review graphical and analytical methods for vector addition.
Practice resolving vectors into components.
Solve problems involving vector addition and subtraction in two dimensions.

Read 'Six Easy Pieces' by Richard Feynman

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Gain a deeper conceptual understanding of fundamental physics principles 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, focusing on the core concepts.
Reflect on how the concepts relate to the course material.
Discuss the concepts with peers or in online forums.

Four other activities

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Solve Kinematics Problems

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Improve your problem-solving skills by working through a variety of kinematics problems, including those involving projectile motion and free fall.

Browse courses on Kinematics

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Gather a set of kinematics problems from textbooks or online resources.
Solve each problem step-by-step, showing all work.
Check your answers against the solutions and identify areas for improvement.

Create a Physics Simulation

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Solidify your understanding of a specific physics concept by creating an interactive simulation using tools like PHET or other simulation software.

Browse courses on PhET Simulations

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Choose a physics concept, such as projectile motion or simple harmonic motion.
Research the equations and principles governing the concept.
Use a simulation tool to create an interactive model of the concept.
Test the simulation and refine it based on your observations.

Read 'University Physics' by Young and Freedman

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Use this book as a reference to deepen your understanding of course topics and explore related concepts.

View UNIVERSITY PHYSICS WITH MODERN PHYSICS on Amazon

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Refer to the book for clarification on challenging topics.
Work through the example problems in the book.
Use the book as a resource for further exploration of physics concepts.

Tutor Other Students

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Reinforce your understanding of physics concepts by tutoring other students who are struggling with the material.

Browse courses on Physics

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Offer tutoring services to classmates or students in lower-level physics courses.
Prepare for tutoring sessions by reviewing the relevant material.
Explain concepts in a clear and concise manner, using examples and analogies.
Answer questions and provide guidance to help students solve problems.

Career center

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

Physics Teacher

A physics teacher introduces students to the fundamental principles of the physical world, guiding them through complex concepts and fostering a love for scientific inquiry. This comprehensive physics course, covering topics from Newtonian mechanics to quantum mechanics, directly aligns with the knowledge base required to teach physics effectively at various educational levels. The inclusion of video explanations, simulations, and a vast array of practice problems provide a solid foundation to both understand the concepts and develop effective teaching strategies. One who is interested in becoming a physics teacher should take this course to help build the required subject matter expertise.

See salaries and explore the career path for Physics Teacher

Research Scientist

Research scientists design and conduct experiments, analyze data, and contribute to advancements in scientific knowledge. This course, which spans classical to modern physics, aligns well with the foundational knowledge required for a research scientist, particularly one focused on physics. The course's breadth of topics, from classical mechanics to quantum theory, helps to build the theoretical base of those who wish to conduct research in physics. The course's practice problems help build skills necessary to complete scientific research. Those interested in becoming a research scientist should take this course to help build the fundamental subject matter expertise. A research scientist typically holds a master's or doctoral degree.

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Geophysicist

Geophysicists study the Earth's physical properties using principles of physics. This course provides a strong foundation in the physics concepts that are essential to this career field, including mechanics, gravitation, and wave phenomena. The course's coverage of topics like fluid mechanics and thermodynamics are highly relevant to the subsurface behavior that geophysicists study. A geophysicist should take this course in order to build the fundamental knowledge and skills needed for success.

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Aerospace Engineer

Aerospace engineers design, develop, and test aircraft, spacecraft, and related systems. A deep understanding of physics is essential, and this course helps build a strong foundation in the core principles that underlie aerospace engineering, including mechanics, thermodynamics, and fluid mechanics. The course's coverage of topics, such as gravitation, oscillations, and waves, helps those who wish to work in aerospace engineering. An aerospace engineer should take this course to help build the core physics knowledge needed for success.

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Mechanical Engineer

Mechanical engineers design, develop, and manufacture mechanical devices and systems. A strong background in physics is critical for this role, and this course provides a comprehensive overview of the fundamental principles that mechanical engineers apply on a daily basis. The course's thorough treatment of mechanics, energy, and materials provides a helpful foundation to those who wish to work as mechanical engineers. The course's practice problems help build the problem-solving skills needed in this role. Those considering a role as a mechanical engineer should take this course to build the requisite core physics knowledge.

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Materials Scientist

Materials scientists investigate the structure and properties of various materials. This course provides a foundation in the physics principles essential to understanding materials at the atomic level, such as mechanics, thermodynamics, and electromagnetism, which may be useful to a materials scientist. The concepts of oscillations, waves, and heat transfer may also be helpful. A materials scientist should take this course to build the foundational knowledge required.

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Biomedical Engineer

Biomedical engineers apply engineering principles to healthcare, designing medical devices and systems. This course's foundational physics knowledge directly translates to many aspects of biomedical engineering, such as understanding biomechanics, fluid flow in the body, and electrical signals. The concepts and equations introduced in the course may be useful for conceptualizing technology within medical contexts. A biomedical engineer should take this course to help build the fundamental subject matter expertise needed.

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Patent Attorney

Patent attorneys specialize in intellectual property law, dealing with patents for inventions. Although this course is not related to law, the technical knowledge gained here may be useful for a patent attorney who specializes in the areas of physics, engineering, or technology. The detailed understanding of physical principles from the course may help a patent attorney analyze the patentability of a physics-related invention. A patent attorney focused on technology should take this course to help build the knowledge base needed for this role. This role requires a law degree.

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Data Scientist

Data scientists extract insights from data using statistical and machine learning techniques. This course, while not directly focused on data science, helps to build the analytical and problem-solving skills that are critical to data science. The course's focus on mathematical problem-solving and model development may help those who wish to develop complex models in a quantitative field. A data scientist should take this course to help cultivate critical thinking skills. A data scientist typically holds a master's degree.

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Software Engineer

Software engineers design, develop, and maintain software systems. While this course is not focused on computer science, the problem-solving and analytical skills that are taught in this course may be useful for software engineers. The course's emphasis on problem solving, logical thinking, and mathematical concepts helps to build a helpful foundation. The ability to model physics may be helpful for those working in fields such as simulation software, game development, and robotics. One who wishes to become a software engineer may find this course useful as one component of building a well-rounded analytical skill set.

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Environmental Engineer

Environmental engineers work to protect the environment and human health by designing solutions to environmental problems. While this course is not focused on environmental science, the principles of physics covered, particularly fluid mechanics and thermodynamics, are relevant. The skills in mathematical modeling and problem-solving may be useful. An environmental engineer may find this course helpful.

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Financial Analyst

Financial analysts evaluate financial data to make investment recommendations or assess financial performance. Although this course does not focus on finance, the analytical and problem-solving skills developed may be useful to a financial analyst. The course's emphasis on mathematical modeling and quantitative thinking may be helpful in the financial sector. While not a core component of working in finance, the practice of solving problems in this course may be useful. A financial analyst may find this course useful to build their quantitative analysis skillset.

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Actuary

Actuaries assess and manage financial risk through mathematical modeling. Although this course is not related to actuarial science, the analytical and problem-solving skills that are taught here may be useful. The conceptual understanding of mathematical models in science may be useful when creating models in the actuarial field. While not a requirement, an actuary may find this course useful to help build analytical skills.

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Science Journalist

Science journalists communicate complex scientific information to the public in a clear and engaging manner. This course provides a solid foundation within physics, which may be useful for an individual covering the field. The clear explanations and diverse materials (videos, simulations, practice problems), may help develop skills in understanding physics and explaining it to others. A science journalist who would like to report on physics and related topics may find this course useful.

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Statistician

Statisticians collect and interpret quantitative data. While this course does not focus on statistics, the practice in problem solving and quantitative analysis that it provides may be useful. The course incorporates a variety of practice questions, which may be useful to those who would like to work in statistics. The experience of working through complex modeling in physics may be helpful to a statistician as they work within other domains. A statistician may find this course useful to help them hone their critical thinking skills.

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The Complete AP and College Physics Course

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