The Complete Physics Course - Learn Science the easy way! from Udemy

What's inside

Learning objectives

Standard & metric system
Vectors & scalars
Standard & scientific notation
Linear motion (including free fall): 1-dimensional motion
Projectile motion: 2-dimensional motion
Newton's laws of motion

Free body diagrams
Forces acting on an object (flat surface & incline plane)
Work & power
Kinetic & potential energy
Conservation of energy
Conservation of momentum

Standard & metric system
Vectors & scalars
Standard & scientific notation
Linear motion (including free fall): 1-dimensional motion
Projectile motion: 2-dimensional motion
Newton's laws of motion
Free body diagrams
Forces acting on an object (flat surface & incline plane)
Work & power
Kinetic & potential energy
Conservation of energy
Conservation of momentum

Syllabus

Introduction

Hello & Welcome!!

Reviews from Release Date (April 2021) to Today (Feb 2022)

"Missing" Answer Keys

Standard & Metric System...including Metric Prefixes

I'll Explain the Math

3 Problems where we solve for x

Overview of 2 methods on Multiplying Fractions (Reduce Fractions; Multiply Across)

Vector Notation & Representation

Background Information

US System (Standard System; Imperial System)
Metric System (SI System; Standard International System)

Quantities of Measurement -
Length (inches; feet; yard; miles; meters)
Mass (pounds; gram)
Time (second; minute; hours; day; year)

Metric Prefixes such as:

mega
kilo
centi
milli
micro

Question - Which System is Better?

Convert

feet to meters
meters to feet

Convert

lbs to kg
kg to lbs

Convert

kg to g
cm to m

Worksheet Instructions

Convert

kg to lbs
ft to m
kg to g
mm to m

days to min
yards to meters
miles to km
km to miles

mph to km per sec
ft per sec to m per hr
km per sec to mph
meters per sec to mph

Problems 10&12

Back to our Question - Which System is Better?

Vectors and Scalars

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Vector - magnitude (value) and direction
Scalar - magnitude (value)

Adding Vectors

Why are we learning about Vectors?

Adding Vectors - Practice Problems Part 1

Adding Vectors - Practice Problems Part 2

Scaling Vectors

Negative Vectors and their Direction

Adding, Scaling, and Subtracting Vector Exercises

Worksheet - Download & Print Out

Adding, Subtracting & Scaling Vectors Worksheet

Analyzing Vectors using Trigonometry

Lets do the Math

Pythagorean Theorem

Intro to Trigonometry & Defining the different parts of the Right Triangle

Why are we learning Trigonometry?

Trigonometric Functions

Trigonometry - Example Problem 1

Trigonometry Worksheet - Problems 1-3 - Determine the value of X

Trigonometry Worksheet - Problem 1 - Determine the value of X & Y

Worksheet Practice Problems

Standard and Scientific Notation

Why do we use Scientific Notation?

Understanding Exponents

Rules for Scientific Notation...We'll understand these, not memorize them!

Convert from Scientific to Standard Notation

Convert from Standard to Scientific Notation

Additional Problems

Review - Metric System, Vectors & Scalars, and Standard & Scientific Notation

Understand how to Plot Position vs Time and Velocity vs Time Graphs

Download Worksheet & Print Out

Only teaching how to plot Position vs Time and Velocity vs Time

What is a Motion Diagram?

Plotting Position vs Time Graph

Defining Segments on a Position vs Time Graph and Discussing Slope Formula

Using the slope formula (rise over run) to calculate the Velocity on our Position vs Time Graph

Definition of Velocity

Calculating Velocity for the 2nd Segment

Calculating Velocity for the 3rd Segment

Plotting Velocity vs Time Graph

Practice Problem for you to try

Deriving the Kinematic Equations

Introduction Page

Deriving the Kinematic Equations - Intro

Deriving the 2 Average Velocity Formulas

Deriving the Formula.... xF = xI + 1/2(vI + vF) * ▲t

Deriving a Formula for acceleration

Deriving the Formula.... vF = vI + a * ▲t

Deriving the Formula.... xF = xI + vI * ▲t + 1/2 * a * ▲t^2

Deriving the Formula.... vF^2 = vI^2 + 2a( xF - xI )

Kinematics - Linear Motion along the X-Axis (On the Ground)

Explaining Variables I'll be using in the Kinematic Equations

Variations in Kinematic Equations

Worksheet #1 - Download & Print Out

Follow Along with Me

Know your Quantities & Units

Worksheet #1 - Problem 1

Worksheet #1 - Problem 2

Worksheet #1 - Problem 3

Worksheet #1 - Problem 4

Worksheet #1 - Problem 5

Reason behind Choosing the Formula using Process of Elimination

Worksheet #1 - Problem 6

Worksheet #1 - Problem 6 - Another way to think about this problem

Worksheet #1 - Problem 7

Please Leave a Review & Rating!

Worksheet #1 - Problem 8

Worksheet #1 - Problem 9

Worksheet #1 - Problem 10

Worksheet #1 - Problems 11&12 - Conceptual Problems

Instructions for Worksheet #2 - Do NOT Skip this Video!

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Includes printable worksheets for hands-on practice, which can reinforce learning and improve retention of physics concepts

Breaks down physics concepts into conceptual explanations, step-by-step solutions, and practice problems, which can help students build a strong foundation

Covers topics such as vectors, scalars, and trigonometry, which are essential mathematical tools for solving physics problems

Requires access to a printer, which may be a barrier for some students who do not have access to one at home or in their community

Explores both linear and projectile motion, providing a comprehensive understanding of kinematics, which is a core topic in introductory physics

Teaches problem-solving skills using free body diagrams and Newton's laws, which are fundamental for understanding forces and motion

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 Physics Course - Learn Science the easy way! with these activities:

Review Trigonometry Fundamentals

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Strengthen your understanding of trigonometric functions and identities, which are essential for vector analysis and solving problems involving forces and projectile motion.

Browse courses on Trigonometry

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Review trigonometric ratios (sine, cosine, tangent).
Practice solving right triangles for missing sides and angles.
Study trigonometric identities and their applications.

Review 'Six Easy Pieces'

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Gain a deeper conceptual understanding of physics principles through engaging essays by a renowned physicist.

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

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Read the essays related to mechanics, energy, and motion.
Reflect on the concepts presented and how they relate to the course material.
Discuss the ideas with peers or in online forums.

Kinematics Problem Set

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Reinforce your understanding of kinematics by working through a variety of problems involving linear and projectile motion.

Browse courses on Kinematics

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Solve problems involving constant acceleration in one dimension.
Solve problems involving projectile motion with varying initial conditions.
Analyze the motion of objects using kinematic equations.

Four other activities

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Show all seven activities

Review 'Physics for Scientists and Engineers'

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Supplement your learning with a comprehensive physics textbook that provides in-depth explanations and numerous practice problems.

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

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Read relevant chapters on mechanics, energy, and momentum.
Work through example problems and check your understanding.
Attempt end-of-chapter problems to test your knowledge.

Explain Newton's Laws

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Solidify your understanding of Newton's Laws of Motion by creating a video explaining each law with real-world examples.

Browse courses on Newton's Laws of Motion

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Research and gather examples of each of Newton's Laws.
Write a script explaining each law in simple terms.
Record a video explaining the laws and demonstrating the examples.

Build a Projectile Launcher

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Apply your knowledge of projectile motion by designing and building a simple projectile launcher and predicting its range.

Browse courses on Projectile Motion

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Design a simple projectile launcher using readily available materials.
Calculate the expected range of the projectile based on launch angle and velocity.
Test the launcher and compare the actual range to the predicted range.
Analyze any discrepancies and refine your calculations or design.

Tutor Physics 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 students in introductory physics courses.
Prepare explanations and examples for common problem areas.
Provide constructive feedback and guidance to help students improve their understanding.

Career center

Learners who complete The Complete Physics Course - Learn Science the easy way! will develop knowledge and skills that may be useful to these careers:

Physics Teacher

A physics teacher introduces students to the wonders of science and helps them build a foundation in physics. This physics course, with its focus on conceptual explanations and step-by-step problem-solving, may be very useful for aspiring educators. The course material includes printable worksheets which may help in lesson planning. The course's coverage of topics such as linear motion, projectile motion, and Newton's laws provides a strong basis for teaching high school physics and beyond. A physics teacher makes use of this knowledge on a daily basis.

See salaries and explore the career path for Physics Teacher

Tutor

A tutor provides focused, individualized instruction to students who need support in their academic pursuits. This physics course, designed to simplify complex concepts and provide step-by-step problem-solving techniques, may be very helpful for anyone seeking to tutor students in physics. The course material might also be helpful in designing lessons on topics such as vectors, energy, and momentum. This course would be valuable to a tutor since it provides conceptual explanations and practice problems that are core to delivering effective instruction.

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Curriculum Developer

A curriculum developer designs educational materials that help students learn effectively. This physics course, with its focus on making complex concepts simple and clear, may be helpful to those involved in creating physics curricula. The course's inclusion of conceptual explanations, step-by-step solutions, and practice problems aligns well with the work of a curriculum developer, who must consider effective methods of science instruction. A curriculum developer benefits from this course because it may offer a framework that is effective in teaching physics at the high school level.

See salaries and explore the career path for Curriculum Developer

Science Writer

A science writer communicates complex scientific information to a general audience, making it engaging and easy to understand. This physics course, with its emphasis on making physics concepts simple and clear, may be helpful for a science writer. The course provides a broad understanding of physics principles that a science writer can apply to communicate topics like linear motion, energy, and momentum with clarity. A science writer might benefit from this course because of its focus on conceptual explanations, helping them translate complicated topics for a general audience.

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Educational Consultant

An educational consultant advises schools and educational organizations on effective teaching methods and strategies. This physics course, with its comprehensive approach to teaching high school physics, may be valuable for an educational consultant. The course material could provide insights into effective physics instruction, including using step-by-step problem-solving and conceptual explanations. An educational consultant may find this course helpful because it may offer a model of clear and comprehensive science instruction.

See salaries and explore the career path for Educational Consultant

Mechanical Engineer

Mechanical engineers design, develop, build, and test mechanical and thermal devices. A mechanical engineer frequently relies on principles of physics, such as those taught in this course, including Newton's laws and the conservation of energy. The course's focus on solving real-world physics problems, including those involving forces and motion, helps build a strong foundation in the physical sciences. This course may be useful as it provides conceptual explanations and problem solving techniques that may help the work of a mechanical engineer.

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Aerospace Engineer

Aerospace engineers design, develop, and test aircraft and spacecraft. These professionals are dependent on principles of physics to understand aerodynamics and propulsion. This course's study of linear and projectile motion along with Newton's laws are highly relevant to this work. The course's focus on problem-solving techniques may be helpful to an aerospace engineer who must routinely solve technical and scientific challenges. An aerospace engineer may find this course useful as it covers many of the foundational physics concepts that are essential to their field.

See salaries and explore the career path for Aerospace Engineer

Civil Engineer

Civil engineers design and construct infrastructure projects such as buildings, roads, and bridges. The work of a civil engineer depends on physics principles, especially mechanics and structural analysis. This course's coverage of forces, motion, and energy may be useful for those in this career field. This course may be helpful due to its emphasis on free body diagrams, forces on objects, and work and power. The problem solving approach in this class may allow a civil engineer to better approach technical issues in their work.

See salaries and explore the career path for Civil Engineer

Software Developer

Software developers design, create, and test computer software. Although seemingly distant from physics, the logical problem-solving skills developed in this course may be beneficial to a software developer. The course’s emphasis on breaking down complex problems into manageable parts and applying step-by-step solutions may be useful in debugging and creating efficient code. A software developer may find this course helpful as it may improve problem solving abilities.

See salaries and explore the career path for Software Developer

Data Analyst

Data analysts interpret and analyze data to identify trends and insights. Although this role does not directly use physics, the analytical and problem-solving skills developed through this course may benefit a data analyst. The course's approach to breaking down and solving complex physics problems may enhance an analyst’s ability to interpret data. A data analyst may find this course helpful as it may improve logical thinking and technical skills.

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Technical Writer

A technical writer creates documentation for technical products and services. Although a technical writer might not need physics directly, the emphasis on clear explanations offered in this course may be valuable to a technical writer. The course’s focus on dissecting complex concepts and presenting them simply can improve a technical writer's ability to write clear and concise technical documents. A technical writer may find this course helpful because it provides a model for communicating complex information.

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Science Journalist

A science journalist researches and writes news stories about science. The course's approach to problem solving and communicating scientific ideas may be useful to a science journalist. The course provides a foundation in physics principles that a science journalist can use when covering stories about science. A science journalist may find this course useful as it can enhance their understanding of scientific concepts.

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Lab Technician

Lab technicians assist with scientific experimentation and research. This physics course may be useful to a lab technician as a foundation in fundamental physics concepts such as motion, forces, and energy. This course emphasizes conceptual explanations and problem-solving, which may help a lab technician in performing experiments and analyzing results. A lab technician may find this course helpful as it enhances their understanding of scientific principles and methodologies.

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Product Designer

Product designers create functional and aesthetically pleasing products. While not directly tied to physics, the problem-solving skills learned in this physics course may be helpful to a product designer. The course's focus on breaking down complex problems and applying systematic solutions may be beneficial to a designer who must balance functionality and design. A product designer may find this course helpful as it may improve their logical thinking and analytical skills.

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Patent Attorney

Patent attorneys work with inventors to protect their intellectual property. This work requires the ability to understand and explain complicated scientific and technical concepts. This course's focus on clear and conceptual explanations in physics may be helpful to a patent attorney. The course's exploration of energy, motion, and forces may help the attorney understand the scientific principles of inventions. A patent attorney may find this course useful as it may improve their capacity to grasp technical complexities.

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The Complete Physics Course - Learn Science the easy way!

What's inside

Learning objectives

Syllabus

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Activities

Career center

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