2016-12-17

Physics for Science and Engineering I (UMKC) by Jerzy Wrobel

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source: UMKC        2014年6月24日
Physics 240: Physics for Science and Engineering course is being offered by UMKC's Physics Department. The course, lectured by Professor Jerzy Wrobel, is based on the 8th edition of a textbook Physics for Scientists and Engineers authored R.A. Serway & J.W. Jewett, Jr.

Lecture 1 44:11
Lecture 2 - Introduction to Physics 48:28
Lecture 3 - Scalar Quantities 49:09
Lecture 4 - Area, Volume & Density 46:57
Lecture 5 - Vectors 45:03
Lecture 6 - Scalar Product and Cartesian Coordinate System 43:15
Lecture 7 - Vector Quantities 0:52
Lecture 8 - Velocity and Acceleration 48:04
Lecture 9 - Motion with Constant Velocity 37:20
Lecture 10 - Motion with Constant Acceleration 47:22
Lecture 11 - Inverse Relations 46:50
Lecture 12 - Galilean Transformation 48:34
Lecture 13 - Laws of Motion 39:34
Lecture 14 - Laws of Motion 46:23
Lecture 15 - Laws of Motion 40:20
Lecture 16 - Laws of Motion 47:31
Lecture 17 - Uniform Circular Motion 43:06
Lecture 18 - Inertial Forces 52:21
Lecture 19 - Inertial Forces 39:56
Lecture 20 - Newtons Second Law in a non-Inertial Reference Frame 41:24
Lecture 21 - The Work-Energy Theorem (v.1) 50:08
Lecture 22 47:52
Lecture 23 - Mechanical Energy 43:44
Lecture 24 - Applications of the Work-Energy Theorem 41:30
Lecture 25 - Relation between Descriptions of Interaction and Descriptions of Motion 50:54
Lecture 26 - Impulse-Momentum Theorem 41:54
Lecture 27 - Conservation of Total Momentum 46:07
Lecture 28 - Center of Mass 49:35
Lecture 29 45:44
Lecture 30 48:03
Lecture 31 46:55
Lecture 32 - Angular Momentum and Torque 28:43
Lecture 33 - Center of Force and Rigid Body 44:35
Lecture 34 -Total Angular Momentum of a Rigid Body 44:21
Lecture 35 44:51
Lecture 36 - Kinetic Energy of a Rigid Body 48:17
Lecture 37 -Application of Newtons Second Law 37:54
Lecture 38 - - Application of Newtons Second Law for the Analysis 48:13
Lecture 39 - Internal Interactions 48:36
Lecture 40 - Hooks Law 47:49
Lecture 41 - Liquid In Equilibrium 44:51
Lecture 42 - Archimedes Principle and Bernoullis Equation 43:45
Lecture 43 44:07
Lecture 43 - Concept of Heat Transfer 47:46
Lecture 44 - Heat Capacity 41:32
Lecture 45 - Thermodynamic Processes 52:57
Lecture 46 - The First Law of Thermodynamics 42:27
Lecture 47 - Microscopic Model of an Ideal Gas 43:54
Lecture 48 - Entropy 43:14
Lecture 49 - Second Law of Thermodynamics 47:27
Lecture 50 - Consequences of the Second Law of Thermodynamics 46:02
Lecture 51 - Review of Concepts 54:15