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Ap Physics 1: The 14.5-Hour Fast Track To A Perfect Score
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.63 GB[/center]  | Duration: 14h 28m
From Kinematics to Dynamics-Complete Exam Prep with Lectures and Walkthroughs
What you'll learn
Compare and contrast distance and displacement
Understand the graphical representation of displacement, velocity, and acceleration
Define and distinguish between vector and scalar physical quantities
Solve one- and two-dimensional kinematics problems
Describe the effects of gravity on an object's motion
Add and subtract vectors (algebraically and graphically)
Separately analyze the horizontal and vertical motions in projectile problems
Determine the net force on an object
Use Newton's second law of motion to analyze dynamic problems
Solve problems involving springs
Compare and contrast the physical properties associated with linear motion and rotational motion
Use the laws of gravity and circular motion to solve problems involving planets and satellites
Define the work done on an object by an external force
Describe the relationship between work done and the change in kinetic energy
Describe the concept of potential energy and how it relates to work
Solve dynamics problems using conservation of energy
State Newton's second law in terms of momentum
Use conservation of momentum to solve collision problems
Define the conditions necessary for a rigid body to be in equilibrium
Solve statics problems
Solve kinematics and dynamic problems involving rotational motion
Compare and contrast the dynamics of linear and rotational motion
Apply energy concepts to rotational motion
Understand the fundamental concepts of oscillatory motion and simple harmonic motion (SHM)
Apply SHM principles to real-world systems, such as the simple pendulum and vertical oscillations
Calculate the energy transformations in SHM systems
Compare densities of different materials and their impact on buoyancy
Understand absolute pressure, gauge pressure, and atmospheric pressure
Explain how pressure varies with depth in a fluid
Explain Archimedes' principle and the concept of buoyancy
Apply the continuity equation (A₁v₁ = A₂v₂) to incompressible fluids
Understand the relationship between pressure, velocity, and height in fluid dynamics (Bernoulli's principle)
Requirements
You should have completed a geometry course and be concurrently taking Algebra II or an equivalent course.
You may have little or no calculus knowledge.
You may have little or no physics background.
Description
HOW THIS COURSE WORKS
Welcome to AP Physics 1: The 14.5-Hour Fast Track to a Perfect Score! This course has everything you need to prepare confidently for the AP Physics 1 exam. You'll find step-by-step video lectures, whiteboard-style notes, practice problems with detailed solutions, and assignments designed to reinforce what you've learned.
I break down every concept clearly and walk you through each example and derivation-so you not only memorize equations but truly understand the physics behind them.
What are AP Exams and Who Should Take This Course?
AP (Advanced Placement) exams are standardized college-level assessments administered by the College Board. Scoring well can earn you college credit, advanced placement in university courses, or simply a stronger math foundation. This course is ideal for high school students currently enrolled in AP Physics 1 or anyone preparing to take the exam independently.
Course Structure
The course is organized into easy-to-follow sections that align with the official College Board AP Physics 1 curriculum
Unit 1: Kinematics - Motion in one and two dimensions, displacement, velocity, and acceleration.
Unit 2: Force and Translational Dynamics - Newton's laws, free-body diagrams, and net force.
Unit 3: Work, Energy, and Power - Kinetic and potential energy, work-energy theorem, and power.
Unit 4: Linear Momentum - Impulse-momentum theorem and conservation of momentum.
Unit 5: Torque and Rotational Dynamics - Rotational motion, torque, and moment of inertia.
Unit 6: Energy and Momentum of Rotating Systems - Rotational kinetic energy, angular momentum, and conservation principles.
Unit 7: Oscillations - Simple harmonic motion, springs, pendulums, and energy in oscillating systems.
Unit 8: Fluids - Density, pressure, buoyancy, continuity, and Bernoulli's principle.
Bonus: Walk-through of Past AP Physics 1 Exam Problems - Learn to solve real exam questions, step by step.
CONTENT YOU WILL GET INSIDE EACH SECTION
Videos - Each topic begins with an in-depth explanation and walkthrough. I use diagrams, worked examples, and clear step-by-step logic to help you master the material.
Notes - You'll get my whiteboard notes from each lecture, available to download скачать for offline review. But I still encourage you to take your own notes too!
Extra Resources - Formula sheets, study guides, and tips to help you stay organized and focused.
Assignments - After watching the lectures, it's your turn to practice. There are 9 assignments throughout the course, with full solutions provided so you can check your work and learn from any mistakes.
WHAT'S INCLUDED IN THE COURSE
An instructor who's committed to your success
Lifetime access to AP Physics 1: The 14.5-Hour Fast Track to a Perfect Score
Support in the Q&A section whenever you get stuck
Udemy Certificate of Completion
Downloadable lectures and resources for offline study
9 assignments + bonus exam walk-throughs
Let's get ready to ace the exam-efficiently, effectively, and confidently.
See you inside!
- Gina
Who this course is for
Students taking AP Physics 1 in school and need extra support.
Self-studiers preparing for the AP Physics 1 exam.
Homeschool students following an AP curriculum and looking for structured lessons.
Students planning to pursue STEM fields (engineering, physics, biology, etc.) and needing a strong physics foundation before college-level courses.
Students aiming for a high score on the AP Physics 1 exam and needing practice problems, strategies, and exam tips.
Anyone finding physics concepts challenging or abstract and needing step-by-step explanations with real-world applications..
Overview
Section 1: Introduction
Lecture 1 Overview
Lecture 2 Welcome and How It Works
Lecture 3 About the Exam
Lecture 4 Tips to Maximize Your Learning
Section 2: Unit 1: Kinematics
Lecture 5 Downloadable Notes
Lecture 6 Overview of Unit 1
Lecture 7 Kinematics: Study of Motion
Lecture 8 Position, Distance Travelled, and Displacement
Lecture 9 Speed and Velocity
Lecture 10 Graphical Representation and Turning Point
Lecture 11 Acceleration, Concavity, Point of Inflection
Lecture 12 Using Calculus to relate x(t), v(t), and a(t)
Lecture 13 Motion under Constant Acceleration
Lecture 14 Examples: Motion under Constant Acceleration
Lecture 15 Free Fall
Lecture 16 Example: Free Fall
Section 3: Unit 1 (Part II): Kinematics in Two Dimensions
Lecture 17 Downloadable Notes
Lecture 18 Vectors and Their Representation
Lecture 19 Examples: Converting Between Cartesian and Polar Representations
Lecture 20 Adding and Subtracting Vectors
Lecture 21 Examples: Adding Vectors
Lecture 22 Reference Frame and Relative Motion
Lecture 23 Examples: Relative Velocity
Lecture 24 Two-Dimensional Motion
Lecture 25 Examples: Two-Dimensional Motion
Section 4: Unit 2: Force and Translational Dynamics
Lecture 26 Downloadable Notes
Lecture 27 Overview of Unit 2
Lecture 28 Newton's 1st Law
Lecture 29 Newton's 2nd Law
Lecture 30 Types of Force
Lecture 31 Definitions: Systems, Center of Mass, and Free Body Diagrams
Lecture 32 Examples: Find the Normal Force
Lecture 33 Examples: Newton's 2nd Law
Lecture 34 Example: On an Inclined Plane
Lecture 35 Example: Find the Range of Forces
Lecture 36 Example: Tension Forces
Lecture 37 Newton's 3rd Law
Lecture 38 Example: Newton's 3rd Law
Lecture 39 Examples: Atwood's Machine (Pulley)
Lecture 40 Examples: Atwood's Machine Part 2
Lecture 41 More Challenging Problems
Section 5: Unit 2 (Part II): Circular Motion and Gravity
Lecture 42 Downloadable Notes
Lecture 43 Uniform Circular Motion (UCM)
Lecture 44 Short Examples: Newton's 2nd Law in UCM
Lecture 45 Example 1: UCM and Friction
Lecture 46 Example 2: UCM and Friction
Lecture 47 Example: Drying Machine
Lecture 48 Newton's Universal Law of Gravitation
Lecture 49 Non Uniform Circular Motion
Lecture 50 Angular Quantities
Lecture 51 Example: Kinematic Equations with Angular Quantities
Section 6: Unit 3: Work, Energy, and Work
Lecture 52 Downloadable Notes
Lecture 53 Overview of Unit 3
Lecture 54 Kinetic Energy and Potential Energy
Lecture 55 Conservation of Energy
Lecture 56 Work
Lecture 57 Examples: Conservation of Energy and Work
Lecture 58 Scalar Product (Dot Product)
Lecture 59 Applying Scalar Product to Work
Lecture 60 Another Type of Force: Spring Force
Lecture 61 Conservation of Energy with Spring Force
Lecture 62 Conservative and Non Conservative Forces
Lecture 63 Power
Section 7: Unit 4: Linear Momentum
Lecture 64 Downloadable Notes
Lecture 65 Overview of Unit 4
Lecture 66 Newton's Laws of Motion and Momentum
Lecture 67 Collisions
Lecture 68 Examples: Collisions
Lecture 69 Opposite of Collision: Object Breaks Apart
Lecture 70 Impulse
Lecture 71 Example: Conservation of P and E (Part 1)
Lecture 72 Examples: Conservation of P and E (Part 2)
Lecture 73 Examples: Conservation of P and E (Part 3)
Section 8: Unit 5: Torque and Rotational Dynamics
Lecture 74 Downloadable Notes
Lecture 75 Overview of Unit 5
Lecture 76 Introduction to Rotational Dynamics
Lecture 77 Torque
Lecture 78 Moment of Inertia
Lecture 79 Vector Product (Cross Product)
Lecture 80 Vector Product Applied to Torque
Section 9: Unit 6: Energy and Momentum of Rotating Systems
Lecture 81 Overview of Unit 6
Lecture 82 Rotational Kinetic Energy
Lecture 83 Angular Momentum
Lecture 84 Examples: Angular Momentum
Lecture 85 Angular Momentum and Vector Product
Lecture 86 Notion of Centre of Mass
Lecture 87 Example: Rotational Kinematic with Projectile Motion
Lecture 88 Example 1: Rotational Dynamics
Lecture 89 Example 2: Rotational Dynamics
Section 10: Unit 7: Oscillations
Lecture 90 Downloadable Notes
Lecture 91 Overview of Unit 7
Lecture 92 Introduction and Important Quantities
Lecture 93 Simple Harmonic Motion (SHM)
Lecture 94 Solution to SHM
Lecture 95 Notes on Quantities Related to SHM
Lecture 96 Displacement, Velocity, and Acceleration
Lecture 97 Simple Pendulum
Lecture 98 Energy in SHM
Lecture 99 Example 1: SHM
Lecture 100 Example 2: SHM
Lecture 101 Example 3: SHM
Lecture 102 Phase Constant
Lecture 103 SHM and Circular Motion
Lecture 104 Example 4: SHM
Lecture 105 Vertical Oscillations
Section 11: Unit 8: Fluids
Lecture 106 Downloadable Notes
Lecture 107 Overview of Unit 8
Lecture 108 Fluid and Related Quantities
Lecture 109 Variation of Pressure with Depth
Lecture 110 Examples: Variation of Pressure
Lecture 111 Absolute Pressure and Gauge Pressure
Lecture 112 Buoyancy: Archimedes' Principle
Lecture 113 Examples: Archimedes' Principle
Lecture 114 Fluid Motion and Continuity Equation
Lecture 115 Bernoulli's Equation
Section 12: Past AP Physics 1 Exams
Lecture 116 Past AP Physics 1 Exams
Lecture 117 Section II Free-Response Questions 2024
Lecture 118 2024 Section II Q1 Solutions
Lecture 119 2024 Section II Q2 Solutions
Lecture 120 2024 Section II Q3 Solutions
Lecture 121 2024 Section II Q4 and Q5 Solutions
Lecture 122 Section II Free-Response Questions 2023
Lecture 123 2023 Section II Q1 Solutions
Lecture 124 2023 Section II Q2 Solutions
Lecture 125 2023 Section II Q3 Solutions
Lecture 126 2023 Section II Q4 and Q5 Solutions
Lecture 127 Section II Free-Response Questions 2022
Lecture 128 2022 Section II Q1 Solutions
Lecture 129 2022 Section II Q2 Solutions
Lecture 130 2022 Section II Q3 Solutions
Lecture 131 2022 Section II Q4 and Q5 Solutions
Section 13: Conclusion
Lecture 132 Thank You & Good Luck & Next Step
Lecture 133 BONUS: Let's Keep Learning