# click the up-left corner to select videos from the playlist
source: UMKC 2009年6月11日
Physics 220 (Summer 2009, UMKC) by Robert Riggs
The course is the second semester general physics course (algebra-based). Topics covered are electricity and magnetism, electromagnetic waves, and light. The last third of the course introduces to optics, special relativity, and quantum mechanics.
1: Course Introduction, Syllabus, Electric Charge & Electric Induction 1:13:56
Lecture 2 1:12:54
Lecture 3 1:16:43
Lecture 4 1:16:10
Lecture 6 1:23:11
lecture7 1:08:52
Lecture8 1:50:25
Lecture 10 55:49
Lecture 11 1:11:51
Lecture13 1:18:27
Lecture 14 51:14
Lecture 16 1:28:32
Lecture 17 1:08:26
Lecture 18 54:34
Lecture 20 58:07
Lecture 21 1:06:28
Lecture 22 1:05:13
Lecture 26 32:56
Showing posts with label C. (main sources)-UMKC. Show all posts
Showing posts with label C. (main sources)-UMKC. Show all posts
2016-12-24
Physics (Spring 2010, UMKC) by Robert Riggs
# click the up-left corner to select videos from the playlist
source: UMKC 2010年1月19日
Physics 220 (Spring 2010, UMKC) by Robert Riggs
Lecture 1 Professor Robert Riggs discusses the syllabus and introduces the concept of charge 41:13
2 - Charging by contact, Inducation & Coulomb's Law 41:27
3 - Electric Field 40:23
4 - Gauss's Law, Electric Potential & Electric Potential Energy 50:08
5 - Electric Potential 48:41
6 - Capacitance, Dielectrics, Series & Parallel 49:22
8 - Ohm's Law, Homework Capacitance, Power, Current, Energy & Resistance 41:33
9 - Ohm's Law, Energy, Internal Resistance, Into to Circuits 5:59
10 - Exam Review 24:17
11 - Resistance in Series & Parallel, Kirchoff's Rules 45:51
12 - Kirchoff's Rules, RC Time Constant 40:44
13 - Introduction to Magnetism - Roller Coaster Demo 38:36
14 - Magnetic Force on a charge, Mass Spectrometer 45:26
15 - Current creating magnetic field, straight wire, coil & solenoid 41:35
16 - Magnetic force on a current carrying wire 43:42
17 - EMf, Transformers, Back EMf 42:53
18 - Transformers, Back EMf 42:56
19 - "Arcs and Sparks" by Mike Kelly 40:34
20 - Exam Review 28:27
21 - Electromagnetic Waves, Impedence, AC Circuits 40:35
22 - AC Circuits, Capacitive & Inductive Reactance 44:29
23 - Law of Reflection 39:50
24 44:05
25 - Index of Refraction, Critical Angle, Mirror Equation 41:07
26 - Fun with Focal Points 46:58
29-Thin Film Interference 34:52
30 - Thin Film Redeux 32:53
31 - Diffraction and Polarization 45:29
27 28:23
28 - Interferences,Young's Double Slit 38:54
32 - Human Eye, Resolving Power, Brian Cox on LRC Collider 40:43
33 - Special Relativity Introduction, Time Dilation, Contraction 24:50
34 - Special Relativity 34:42
36 - Relative Velocities 36:38
source: UMKC 2010年1月19日
Physics 220 (Spring 2010, UMKC) by Robert Riggs
Lecture 1 Professor Robert Riggs discusses the syllabus and introduces the concept of charge 41:13
2 - Charging by contact, Inducation & Coulomb's Law 41:27
3 - Electric Field 40:23
4 - Gauss's Law, Electric Potential & Electric Potential Energy 50:08
5 - Electric Potential 48:41
6 - Capacitance, Dielectrics, Series & Parallel 49:22
8 - Ohm's Law, Homework Capacitance, Power, Current, Energy & Resistance 41:33
9 - Ohm's Law, Energy, Internal Resistance, Into to Circuits 5:59
10 - Exam Review 24:17
11 - Resistance in Series & Parallel, Kirchoff's Rules 45:51
12 - Kirchoff's Rules, RC Time Constant 40:44
13 - Introduction to Magnetism - Roller Coaster Demo 38:36
14 - Magnetic Force on a charge, Mass Spectrometer 45:26
15 - Current creating magnetic field, straight wire, coil & solenoid 41:35
16 - Magnetic force on a current carrying wire 43:42
17 - EMf, Transformers, Back EMf 42:53
18 - Transformers, Back EMf 42:56
19 - "Arcs and Sparks" by Mike Kelly 40:34
20 - Exam Review 28:27
21 - Electromagnetic Waves, Impedence, AC Circuits 40:35
22 - AC Circuits, Capacitive & Inductive Reactance 44:29
23 - Law of Reflection 39:50
24 44:05
25 - Index of Refraction, Critical Angle, Mirror Equation 41:07
26 - Fun with Focal Points 46:58
29-Thin Film Interference 34:52
30 - Thin Film Redeux 32:53
31 - Diffraction and Polarization 45:29
27 28:23
28 - Interferences,Young's Double Slit 38:54
32 - Human Eye, Resolving Power, Brian Cox on LRC Collider 40:43
33 - Special Relativity Introduction, Time Dilation, Contraction 24:50
34 - Special Relativity 34:42
36 - Relative Velocities 36:38
Physics (UMKC) by Robert Riggs
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source: UMKC 2009年8月28日
Physics 210 (UMKC) by Robert Riggs
Lecture 1 - Textbook introduction & Syllabus 43:47
2 - Measurement, Units, Unit Analysis, Sig-Figs and Problem Solving 1:11:24
Lecture 3 - Velocity, Speed, Displacement, Distance & Acceleration 54:25
Lecture 4 - Kinematic Equations & Free Fall 50:00
Lecture 5 - Free Fall, Vector Components, Vector Addition 1:04:11
Lecture 6 - Vectors & an Intro to Projectile Motion 1:06:34
Lecture 7 - Projectile Motion from a horizontal cliff 1:02:38
Lecture 8 - Introduction to Forces: Newtons Law I & Newtons Law II 1:03:11
Lecture 9 - Newton's Third Law 1:03:40
Lecture - 10 - Free Body Diagrams & Friction 1:03:49
Lecture 11 - How to solve force vector problems 48:05
Lecture 12 - Work, Energy, Conservation of Energy, Hooke's Law 1:08:03
Lecture 13 - Work Energy Theorem 1:00:10
Lecture 14 - Impulse, Conservation of Linear Momentum 57:13
Lecture 15 - Linear Momentum 1:03:23
Lecture 16 - Review 1:01:12
Lecture 17 1:00:22
Lecture 18 - Circular Motion 1:06:14
Lecture 19 - Rotational Dynamics 1:08:19
Lecture 20 - Rotational Energy 53:41
Lecture 21 - Angular Momentum, Stress & Strain 59:02
Lecture 22 - Ping-Pong Gun & Buoyant Force 55:01
Lecture 23 - Bernoulli Equation 47:49
Lecture 24 - Ideal Gas Law 51:02
25 - Heat, Specific Heat, Phase Change, Conduction, Convection, Radiation 58:40
Lecture 26 - Simple Harmonic Motion - Final Lecture 1:07:13
source: UMKC 2009年8月28日
Physics 210 (UMKC) by Robert Riggs
Lecture 1 - Textbook introduction & Syllabus 43:47
2 - Measurement, Units, Unit Analysis, Sig-Figs and Problem Solving 1:11:24
Lecture 3 - Velocity, Speed, Displacement, Distance & Acceleration 54:25
Lecture 4 - Kinematic Equations & Free Fall 50:00
Lecture 5 - Free Fall, Vector Components, Vector Addition 1:04:11
Lecture 6 - Vectors & an Intro to Projectile Motion 1:06:34
Lecture 7 - Projectile Motion from a horizontal cliff 1:02:38
Lecture 8 - Introduction to Forces: Newtons Law I & Newtons Law II 1:03:11
Lecture 9 - Newton's Third Law 1:03:40
Lecture - 10 - Free Body Diagrams & Friction 1:03:49
Lecture 11 - How to solve force vector problems 48:05
Lecture 12 - Work, Energy, Conservation of Energy, Hooke's Law 1:08:03
Lecture 13 - Work Energy Theorem 1:00:10
Lecture 14 - Impulse, Conservation of Linear Momentum 57:13
Lecture 15 - Linear Momentum 1:03:23
Lecture 16 - Review 1:01:12
Lecture 17 1:00:22
Lecture 18 - Circular Motion 1:06:14
Lecture 19 - Rotational Dynamics 1:08:19
Lecture 20 - Rotational Energy 53:41
Lecture 21 - Angular Momentum, Stress & Strain 59:02
Lecture 22 - Ping-Pong Gun & Buoyant Force 55:01
Lecture 23 - Bernoulli Equation 47:49
Lecture 24 - Ideal Gas Law 51:02
25 - Heat, Specific Heat, Phase Change, Conduction, Convection, Radiation 58:40
Lecture 26 - Simple Harmonic Motion - Final Lecture 1:07:13
Calculus I - III (UMKC) by James Foran
# click the up-left corner to select videos from the playlist
source: UMKC 2012年9月25日
http://d.web.umkc.edu/delawarer/MathDeptHistory/foran.htm
http://d.web.umkc.edu/delawarer/MathDeptHistory/ForanVideosList08...
Calculus I with Prof. James Foran 1:1
1:53:32
1:2 2:00:20
1:3 1:57:41
1:4 1:47:17
1:5 1:47:48
1:6 1:43:41
1:7 1:32:54
1:8 1:59:20
1:9 1:40:10
Calculus II with Prof. James Foran 2:1 1:37:30
2:2 1:47:11
2:3 1:48:52
2:4 1:56:02
2:5 1:40:09
2:6 1:47:20
2:7 1:40:10
2:8 1:38:09
Calculus III with Prof. James Foran 3:1 1:40:09
3:2 1:59:59
3:3 1:40:09
3:4 1:40:33
3:5 1:40:09
3:6 1:56:53
3:7 1:41:36
3:8 1:59:16
source: UMKC 2012年9月25日
http://d.web.umkc.edu/delawarer/MathDeptHistory/foran.htm
http://d.web.umkc.edu/delawarer/MathDeptHistory/ForanVideosList08...
Calculus I with Prof. James Foran 1:1
1:53:32
1:2 2:00:20
1:3 1:57:41
1:4 1:47:17
1:5 1:47:48
1:6 1:43:41
1:7 1:32:54
1:8 1:59:20
1:9 1:40:10
Calculus II with Prof. James Foran 2:1 1:37:30
2:2 1:47:11
2:3 1:48:52
2:4 1:56:02
2:5 1:40:09
2:6 1:47:20
2:7 1:40:10
2:8 1:38:09
Calculus III with Prof. James Foran 3:1 1:40:09
3:2 1:59:59
3:3 1:40:09
3:4 1:40:33
3:5 1:40:09
3:6 1:56:53
3:7 1:41:36
3:8 1:59:16
2016-12-17
Calculus I (UMKC) by Richard Delaware
# click the up-left corner to select videos from the playlist
source: UMKC 2009年6月16日
Calculus 1/ Calc 1 with UMKC's Professor Richard Delaware, in association with UMKC's Video Based Supplemental Instruction Program
Lecture 01 - A Review of Pre-Calculus 46:51
Lecture 02 36:30
Lecture 03 - Trigonometry for Calculus 1:12:41
Lecture 04 - Intuitive Beginning - Limits 1:32:11
Lecture 05-06 2:21:54
Lecture 07 1:03:51
Lecture 08 - Trigonometric Functions (new version) 30:56
Lecture 08 - Trigonometric Functions (older version) 30:38
Lecture 09 54:33
Lecture 10 52:16
Lecture 11 1:14:22
Lecture 12 53:01
Lecture 13 48:13
Lecture 14 55:56
Lecture 15 1:11:43
Lecture 16 1:06:37
Lecture 17 1:01:12
Lecture 18 56:40
Lecture 19 44:30
Lecture 20 1:02:23
Lecture 21 1:05:47
Lecture 22 36:30
Lecture 22-5 17:46
Lecture 23 1:05:51
Lecture 24 36:03
Lecture 25 50:09
Lecture 26 40:41
Lecture 27 45:50
Lecture 28 - One Dimensional Motion & the Integral 52:42
Lecture 29 23:57
Lecture 29 Part II - The Definite Integral Applied: Volumes I 49:07
Lecture 30 20:38
Lecture 30-03 11:52
Lecture 30-04 6:28
Lecture 31 44:02
Lecture 31-06 6:37
source: UMKC 2009年6月16日
Calculus 1/ Calc 1 with UMKC's Professor Richard Delaware, in association with UMKC's Video Based Supplemental Instruction Program
Lecture 01 - A Review of Pre-Calculus 46:51
Lecture 02 36:30
Lecture 03 - Trigonometry for Calculus 1:12:41
Lecture 04 - Intuitive Beginning - Limits 1:32:11
Lecture 05-06 2:21:54
Lecture 07 1:03:51
Lecture 08 - Trigonometric Functions (new version) 30:56
Lecture 08 - Trigonometric Functions (older version) 30:38
Lecture 09 54:33
Lecture 10 52:16
Lecture 11 1:14:22
Lecture 12 53:01
Lecture 13 48:13
Lecture 14 55:56
Lecture 15 1:11:43
Lecture 16 1:06:37
Lecture 17 1:01:12
Lecture 18 56:40
Lecture 19 44:30
Lecture 20 1:02:23
Lecture 21 1:05:47
Lecture 22 36:30
Lecture 22-5 17:46
Lecture 23 1:05:51
Lecture 24 36:03
Lecture 25 50:09
Lecture 26 40:41
Lecture 27 45:50
Lecture 28 - One Dimensional Motion & the Integral 52:42
Lecture 29 23:57
Lecture 29 Part II - The Definite Integral Applied: Volumes I 49:07
Lecture 30 20:38
Lecture 30-03 11:52
Lecture 30-04 6:28
Lecture 31 44:02
Lecture 31-06 6:37
College Algebra (UMKC) by Richard Delaware
# click the up-left corner to select videos from the playlist
source: UMKC 2009年5月4日
College Algebra Lectures with UMKC's Professor Richard Delaware, in association with UMKC's Video Based Supplemental Instruction Program.
Lecture 1 - Numbers This lecture discusses about set of objects,Natural numbers,Real numbers and how to find distance between two points. 1:19:35
Lecture 11 - Functions and Their Graphs 52:33
Lecture 13 - Functions & Their Graphs 41:59
Lecture 14 - Functions & Their Graphs 56:55
Lecture 16 - Equations in One Variable 1:15:08
Lecture 17 - Equations in One Variable 23:30
Lecture 18 - Equations in One Variable 1:03:45
Lecture 19 - Equations in One Variable 36:28
Lecture 2 - Language of mathematics 27:10
Lecture 20 54:09
Lecture 21 - Inequalities in One Variable 50:32
Lecture 22 - Inequalities in One Variable 45:18
Lecture 23 - Polynomial and Rational Functions 1:26:08
Lecture 24 - Polynomial and Rational Functions 1:05:26
Lecture 25 - Locating the Zeros of a Polynomial Function 1:30:40
Lecture 26 - Locating the Zeroes of a Polynomial Function 39:41
Lecture 27 - Rational Functions 1:29:11
Lecture 28 - Exponential Functions 58:16
Lecture 29 - Logarithmic Functions 54:03
Lecture 3 - The powers that be-Exponents 1:32:37
Lecture 30 - Logarithmic Functions 1:11:20
Lecture 31 - Exponential Functions 48:16
Lecture 32 - Systems of Linear Equations 1:19:17
Lecture 33 - Systems of Linear Equations 1:16:05
Lecture 34 - System of Non-Linear Equations 16:06
Lecture 35 - Sequences 57:36
Lecture 36 - Sequences 50:13
Lecture 37 - Series & Induction 58:57
Lecture 38 - The Binominal Theorem 1:04:27
lecture 4 P I 1:35:00
Lecture 4 P2 - Polynomial Expressions 1:26:38
Lecture 5 - More numbers and Geometry 40:43
Lecture 6 - Graphs 54:52
Lecture 7 - Graphs 1:14:16
Lecture 8 - Graphs 1:35:22
Lecture 9 - Functions and Their Graphs 1:24:54
Lecture 10 - Functions and Their Graphs 1:29:40
Lecture 12 - Functions & Their Graphs 1:50:55
Lecture 15 - Equations in One Variable 1:23:06
Lecture 39 1:27:13
source: UMKC 2009年5月4日
College Algebra Lectures with UMKC's Professor Richard Delaware, in association with UMKC's Video Based Supplemental Instruction Program.
Lecture 1 - Numbers This lecture discusses about set of objects,Natural numbers,Real numbers and how to find distance between two points. 1:19:35
Lecture 11 - Functions and Their Graphs 52:33
Lecture 13 - Functions & Their Graphs 41:59
Lecture 14 - Functions & Their Graphs 56:55
Lecture 16 - Equations in One Variable 1:15:08
Lecture 17 - Equations in One Variable 23:30
Lecture 18 - Equations in One Variable 1:03:45
Lecture 19 - Equations in One Variable 36:28
Lecture 2 - Language of mathematics 27:10
Lecture 20 54:09
Lecture 21 - Inequalities in One Variable 50:32
Lecture 22 - Inequalities in One Variable 45:18
Lecture 23 - Polynomial and Rational Functions 1:26:08
Lecture 24 - Polynomial and Rational Functions 1:05:26
Lecture 25 - Locating the Zeros of a Polynomial Function 1:30:40
Lecture 26 - Locating the Zeroes of a Polynomial Function 39:41
Lecture 27 - Rational Functions 1:29:11
Lecture 28 - Exponential Functions 58:16
Lecture 29 - Logarithmic Functions 54:03
Lecture 3 - The powers that be-Exponents 1:32:37
Lecture 30 - Logarithmic Functions 1:11:20
Lecture 31 - Exponential Functions 48:16
Lecture 32 - Systems of Linear Equations 1:19:17
Lecture 33 - Systems of Linear Equations 1:16:05
Lecture 34 - System of Non-Linear Equations 16:06
Lecture 35 - Sequences 57:36
Lecture 36 - Sequences 50:13
Lecture 37 - Series & Induction 58:57
Lecture 38 - The Binominal Theorem 1:04:27
lecture 4 P I 1:35:00
Lecture 4 P2 - Polynomial Expressions 1:26:38
Lecture 5 - More numbers and Geometry 40:43
Lecture 6 - Graphs 54:52
Lecture 7 - Graphs 1:14:16
Lecture 8 - Graphs 1:35:22
Lecture 9 - Functions and Their Graphs 1:24:54
Lecture 10 - Functions and Their Graphs 1:29:40
Lecture 12 - Functions & Their Graphs 1:50:55
Lecture 15 - Equations in One Variable 1:23:06
Lecture 39 1:27:13
Physics for Science and Engineering II (UMKC) by Jerzy Wrobel
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source: UMKC 2009年8月27日
Physics 250:Physics for Science and Engineering II (UMKC)
This course is being offered by UMKC's Physics Department. For interested students - The live classroom uses the following textbook - Physics for Scientists and Engineers, 7th edition, by R.A. Serway & J.W. Jewett, Jr.. This course is being taught by Professor Jerzy Wrobel
Lecture 1 - Electrostatic Interaction 50:12
Lecture 2 - Electric Field Vector 48:08
Lecture 3 - Gauss's Law & Coulomb's Law 47:18
Lecture 4 - Charge, density and the electric field of an extended body 42:50
Lecture 5 - Electric Fields 41:35
Lecture 6 - Electric Potential 41:57
Lecture 7 - Calculating Electric Potential 50:49
Lecture 8 - Substance in an electric field 42:59
Lecture 9 - Capacitors 1:00:36
Lecture 10 - Parallel Plate Capacitor 42:10
Lecture 11 - Systems of Capacitors 44:42
Lecture 12 - Electric Current 46:34
Lecture 13 - Resistors 44:09
Lecture 14 - Systems of Resistors 46:40
Lecture 15 -Sources of Electromotive Force 47:12
Lecture 16 - Kirchoff's Rules 46:10
Lecture 17 - Applications of Kirchhoffs Rules 42:24
Lecture 18 - Charging and Discharging a Capacitor 43:46
Lecture 19 - Sinusoidal Alternating Current 45:04
Lecture 20 - Relation between Current and Voltage 51:59
Lecture 21 - Complex Impedance 32:05
Lecture 22 - AC in Resistors, Capacitors and Inductors 45:04
Lecture 23 - Applications of RLC circuits 33:22
Lecture 24 - Applications of RLC circuits 47:49
Lecture 25 - More Applications of RLC circuits 45:17
Lecture 26 - Semiconductor Devices 47:25
Lecture 27 - Transistor Circuits 52:08
Lecture 28 - Magnetic Interaction 44:39
Lecture 29 - Magnetic interaction 46:26
Lecture 30 - Current carrying wire in a magnetic field 45:02
Lecture 31 - Magnetic Torque 48:02
Lecture 32 - Maxwell's Equations 41:27
Lecture 33 - Magnetic Field produced by Electric Currents 45:09
Lecture 34 - Faradays Law of Induction 43:47
Lecture 35 - Self-induction 44:58
Lecture 36 - Wave nature of Electromagnetic Radiation 47:14
Lecture 37 - Law of Refraction and Law of Reflection 40:46
Lecture 38 - Image Formation 42:40
Lecture 39 - Spherical Mirrors 49:43
Lecture 40 - Ray Diagrams and Mirror Equation 31:32
Lecture 41 - Thin Spherical Lenses 43:54
Lecture 42 - The eye 51:01
Lecture 43 - System of Lenses 45:57
Lecture 44 - Optical Instruments 44:17
Lecture 45 - Designing Optical Systems 47:37
Lecture 46 - Light and Vision 48:21
Lecture 47 - Demonstration of Interference 40:00
Lecture 48 - Theory of Interference 44:27
Lecture 49 - Designing Optical Systems 44:41
Lecture 50 51:15
Lecture 51 - Final Lecture for this series 46:22
source: UMKC 2009年8月27日
Physics 250:Physics for Science and Engineering II (UMKC)
This course is being offered by UMKC's Physics Department. For interested students - The live classroom uses the following textbook - Physics for Scientists and Engineers, 7th edition, by R.A. Serway & J.W. Jewett, Jr.. This course is being taught by Professor Jerzy Wrobel
Lecture 1 - Electrostatic Interaction 50:12
Lecture 2 - Electric Field Vector 48:08
Lecture 3 - Gauss's Law & Coulomb's Law 47:18
Lecture 4 - Charge, density and the electric field of an extended body 42:50
Lecture 5 - Electric Fields 41:35
Lecture 6 - Electric Potential 41:57
Lecture 7 - Calculating Electric Potential 50:49
Lecture 8 - Substance in an electric field 42:59
Lecture 9 - Capacitors 1:00:36
Lecture 10 - Parallel Plate Capacitor 42:10
Lecture 11 - Systems of Capacitors 44:42
Lecture 12 - Electric Current 46:34
Lecture 13 - Resistors 44:09
Lecture 14 - Systems of Resistors 46:40
Lecture 15 -Sources of Electromotive Force 47:12
Lecture 16 - Kirchoff's Rules 46:10
Lecture 17 - Applications of Kirchhoffs Rules 42:24
Lecture 18 - Charging and Discharging a Capacitor 43:46
Lecture 19 - Sinusoidal Alternating Current 45:04
Lecture 20 - Relation between Current and Voltage 51:59
Lecture 21 - Complex Impedance 32:05
Lecture 22 - AC in Resistors, Capacitors and Inductors 45:04
Lecture 23 - Applications of RLC circuits 33:22
Lecture 24 - Applications of RLC circuits 47:49
Lecture 25 - More Applications of RLC circuits 45:17
Lecture 26 - Semiconductor Devices 47:25
Lecture 27 - Transistor Circuits 52:08
Lecture 28 - Magnetic Interaction 44:39
Lecture 29 - Magnetic interaction 46:26
Lecture 30 - Current carrying wire in a magnetic field 45:02
Lecture 31 - Magnetic Torque 48:02
Lecture 32 - Maxwell's Equations 41:27
Lecture 33 - Magnetic Field produced by Electric Currents 45:09
Lecture 34 - Faradays Law of Induction 43:47
Lecture 35 - Self-induction 44:58
Lecture 36 - Wave nature of Electromagnetic Radiation 47:14
Lecture 37 - Law of Refraction and Law of Reflection 40:46
Lecture 38 - Image Formation 42:40
Lecture 39 - Spherical Mirrors 49:43
Lecture 40 - Ray Diagrams and Mirror Equation 31:32
Lecture 41 - Thin Spherical Lenses 43:54
Lecture 42 - The eye 51:01
Lecture 43 - System of Lenses 45:57
Lecture 44 - Optical Instruments 44:17
Lecture 45 - Designing Optical Systems 47:37
Lecture 46 - Light and Vision 48:21
Lecture 47 - Demonstration of Interference 40:00
Lecture 48 - Theory of Interference 44:27
Lecture 49 - Designing Optical Systems 44:41
Lecture 50 51:15
Lecture 51 - Final Lecture for this series 46:22
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
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
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