Classical Physics: Kinematics
N.B. Singh
This audiobook is narrated by a digital voice.
"Classical Physics: Kinematics" is an accessible guide tailored for beginners, exploring the fundamental principles governing motion. From the graceful arcs of projectiles to the intricate dynamics of circular motion, this book demystifies classical physics with clear explanations, practical examples, and engaging insights, paving the way for a deeper understanding of motion in our physical world.
Duration - 2h 2m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "Classical Physics: Kinematics" is an accessible guide tailored for beginners, exploring the fundamental principles governing motion. From the graceful arcs of projectiles to the intricate dynamics of circular motion, this book demystifies classical physics with clear explanations, practical examples, and engaging insights, paving the way for a deeper understanding of motion in our physical world. Duration - 2h 2m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:23
Introduction to Kinematics
Duration:00:00:48
Definition and Scope of Kinematics
Duration:00:02:45
Position, Displacement, and Distance
Duration:00:02:31
Time and its Measurement
Duration:00:02:34
Scalars and Vectors in Kinematics
Duration:00:02:46
Frames of Reference
Duration:00:02:39
Mathematical Description of Motion
Duration:00:03:39
One-Dimensional Motion
Duration:00:00:50
Constant Velocity Motion
Duration:00:02:21
Uniformly Accelerated Motion
Duration:00:02:28
Equations of Motion
Duration:00:02:06
Graphical Analysis of Motion
Duration:00:02:32
Free Fall and Acceleration due to Gravity
Duration:00:02:10
Applications and Examples in One-Dimensional Motion
Duration:00:02:29
Two-Dimensional Motion
Duration:00:00:56
Vector Representation of Motion
Duration:00:02:23
Projectile Motion Components
Duration:00:02:38
Range, Maximum Height, and Time of Flight
Duration:00:02:49
Uniform Circular Motion
Duration:00:02:26
Tangential and Radial Acceleration
Duration:00:02:53
Applications and Examples in Two-Dimensional Motion
Duration:00:02:45
Relative Motion
Duration:00:01:00
Relative Velocity and Reference Frames
Duration:00:02:44
Relative Acceleration
Duration:00:02:37
Motion of Two Interacting Objects
Duration:00:02:26
Riverboat Problems and Crossing Situations
Duration:00:02:24
Frame of Reference Transformations
Duration:00:02:20
Applications and Examples of Relative Motion
Duration:00:02:17
Projectile Motion
Duration:00:00:58
Understanding Projectile Motion
Duration:00:02:13
Horizontal and Vertical Components
Duration:00:02:46
Range, Time of Flight, and Maximum Height
Duration:00:06:57
Projectiles Launched at an Angle
Duration:00:02:41
Real-World Applications of Projectile Motion
Duration:00:02:43
Circular Motion
Duration:00:01:05
Centripetal Acceleration and Force
Duration:00:02:55
Angular Velocity and Tangential Speed
Duration:00:02:44
Non-Uniform Circular Motion
Duration:00:03:04
Banked Curves and Conical Pendulums
Duration:00:03:10
Applications and Examples in Circular Motion
Duration:00:03:17
Motion in Non-Inertial Frames
Duration:00:04:28
Centrifugal and Coriolis Forces
Duration:00:03:09
Pseudo Forces in Accelerated Frames
Duration:00:02:56
Motion Relative to Rotating Frames
Duration:00:02:44
Foucault Pendulum and Rotating Reference Frames
Duration:00:02:38
Practical Implications and Examples of Non-Inertial Frames
Duration:00:03:13