University Physics 1 Full Course: Mechanics (The Physics of Motion)
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What you'll learn
This course includes
- 15 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 78 lessons • 15 hours of video
University Physics 1 Full Course: Mechanics (The Physics of Motion)
78 lessons
• 15 hours
University Physics 1 Full Course: Mechanics (The Physics of Motion)
78 lessons
• 15 hours
- 1.1: Units and Conversions 06:42
- 1.2: Introduction to Vectors 21:41
- 1.3: Fermi Estimation Problems 09:24
- 1.4: Optional video - Vector Component and Direction Review 09:01
- 2.1: Definitions in 1D Motion/Kinematics 17:55
- 2.2: Constant Acceleration in 1D 17:46
- 2.3: 1D motion with non constant acceleration 03:29
- 2.4: Two-Body Problems 09:04
- 2.5: Intro to Combined Concept Questions 05:17
- 3.1: Overview of 2D Motion 05:28
- 3.2: Projectile Motion 11:03
- 3.3: Circular Motion 21:01
- 3.4: Module 3 Combined Concept Problem 07:33
- 4A.1: Newton's 1st and 2nd Laws 14:30
- 4A.2: Newtons 3rd Law 09:31
- 4A.3: Free Body Diagrams, Essential for Problem-Solving 08:23
- 4A.4: Examples of Problem Solving with Newton's Second Law 08:16
- 4A.5: Combined Concept Example with Newton's Second Law 04:28
- 4B.1: Newton's Second Law and Ramps 06:14
- 4B.2: Newton's Second Law and Friction 10:45
- 4B.3: Newton's Second Law and Circular Motion 20:35
- 4B.4: Introduction to Module 4B Combined Concept Problems 04:56
- 4B.5: Module 4B Combined Concept Worked Example 18:24
- 5.1: Introduction to Work 16:11
- 5.2: The Work-Kinetic Energy Theorem 07:11
- 5.3: The Dot Product (AKA Scalar Product) 08:05
- 5.4: Calculating Work by 2D and 3D Forces 09:40
- 5.5: Introduction to Module 5 Combined Concept Problems 04:54
- 5.6: Module 5 Combined Concept Worked Example 13:52
- 6.1: Types of Energy in Mechanics of Motion (University Physics 1) 10:08
- 6.2: Relating Force to Potential Energy 11:20
- 6.3: Intro to Conservative and Non Conservative Forces 06:19
- 6.4: The Law of Conservation of Energy 17:34
- 6.5: Power 10:55
- 6.6: Module 6 Combined Concept Problems, Part 1 06:57
- 6.7: Module 6 combined concept examples, Part 2 09:46
- 7.1: Vertical Circles and a Combined Concept Problem 16:00
- 8.1: Introduction to Momentum and Impulse 15:48
- 8.2: Finding the Force During a Collision 08:35
- 8.3: Determining Impulse from Variable Force 06:00
- 9.1: Conservation of Linear Momentum Intro 05:51
- 9.2: Types of Collisions 05:34
- 9.3: Conservation Of Linear Momentum Worked Example 21:47
- 9.4: Combining CoLM and CoE 05:19
- 9.5: Module 9 Combined Concept Problem 17:03
- 10.1: Center of Mass 07:15
- 10.2: Introduction to Rotational Motion/Kinematics 08:17
- 10.3: Vector Directions of Rotational Quantities 08:53
- 10.4: Relationship Between Translational and Angular Quantities 02:33
- 10.5: Non Constant Acceleration in Rotational Motion 02:31
- 11.1: Conceptual Understanding of Moment of Inertia 12:32
- 11.2: Calculating MOI Part 1 (discrete case and parallel axis thm) 15:08
- 11.3: Calculating MOI Part 2 (with integration) 27:13
- 11.4: Parallel axis example - MOI of three hollow rings with different axes 07:09
- 12A.1: Torque and the Cross Product 16:00
- 12A.2: Calculating Cross Product Using Components 02:25
- 12A.3: Newton's 2nd law with Rotation and single object problems 17:20
- 12B.1: Newton's Second Law and Multi-object Problems 24:02
- 12C.1: Static Equilibrium Overview 17:02
- 13.1: Rolling Motion 07:52
- 13.2: Conservation of Energy with Rotation 06:39
- 14.1: Introduction to Angular Momentum 19:53
- 14.2: The Law of Conservation of Angular Momentum 06:32
- 14.3: Rotational Motion Problem Recognition Tips 13:00
- 15A.1: Introduction to Simple Harmonic Motion 23:49
- 15A.2: Potential Energy Diagrams and Simple Harmonic Motion 07:16
- 15A.3: Energy in Simple Harmonic Motion 08:10
- 15B.1: Pendulums and Oscillations 15:54
- 15B.2: Calculating Period of Physical Pendulums 05:13
- 16A.1: Mathematical representation of wave motion 29:56
- 16A.2: Visualizing Traveling Wave Motion 09:47
- 16A.3: Examining relationship between speed, wavelength, and frequency 09:16
- 16A.4: Wave Interference and Standing Waves 15:28
- 16A.5: Awesome Applications of Wave Interference 17:22
- 16B.1: Introduction to Sound Waves 07:34
- 16B.2: Beats 13:24
- 16B.3: Doppler Effect 09:19
- 16.4: Sound, music, and speech 31:05
