We are introducing the basic theories of electricity and magnetism in this course, which is recommended for students majoring/minoring in Engineering.
开设学校:云南大学;学科:理学、
We are introducing the basic theories of electricity and magnetism in this course, which is recommended for students majoring/minoring in Engineering.
-Lecture 1 Electric Charges
-Lecture 1 Electric Charges--作业
-Lecture 2 Coulomb’s Law
-Lecture 2 Coulomb’s Law--作业
-Lecture 3 Electric Fields
-Lecture 3 Electric Fields--作业
-Lecture 4 Evaluation of Electric Fields(I)
--Lecture 4 Evaluation of Electric Fields(I)
-Lecture 4 Evaluation of Electric Fields(I)--作业
-Lecture 5 Evaluation of Electric Field (II)
--Lecture 5 Evaluation of Electric Field (II)
-Lecture 5 Evaluation of Electric Field (II)--作业
-Lecture 6 Electric Field Lines
--Lecture 6 Electric Field Lines
-Lecture 6 Electric Field Lines--作业
-Lecture 7 Electric Flux
-Lecture 7 Electric Flux--作业
-Lecture 8 Gauss’s Law
-Lecture 8 Gauss’s Law--作业
-Lecture 9 Application of Gauss’s Law
--Lecture 9 Application of Gauss’s Law
-Lecture 9 Application of Gauss’s Law--作业
-Lecture 10 Electric Potential
--Lecture 10 Electric Potential
-Lecture 10 Electric Potential--作业
-Lecture 11 Evaluation of Electric Potential
--Lecture 11 Evaluation of Electric Potential
-Lecture 11 Evaluation of Electric Potential--作业
-Lecture 12 Finding E from V
-Lecture 12 Finding E from V--作业
-Lecture 13 Properties of a conductor in electrostatic equilibrium (I)
--Lecture 13 Properties of a conductor in electrostatic equilibrium
-Lecture 13 Properties of a conductor in electrostatic equilibrium (I)--作业
-Lecture 14 Properties of a conductor in electrostatic equilibrium (II)
--Lecture 14 Properties of a conductor in electrostatic equilibrium (II)
-Lecture 14 Properties of a conductor in electrostatic equilibrium (II)--作业
-Lecture 15 Dielectrics
-Lecture 15 Dielectrics--作业
-Lecture 16 Capacitor & Capacitance
--Lecture 16 Capacitor & Capacitance
-Lecture 16 Capacitor & Capacitance--作业
-Lecture 17 Capacitors with dielectrics
--Lecture 17 Capacitors with dielectrics
-Lecture 17 Capacitors with dielectrics--作业
-Lecture 18 Energy stored in a capacitor
--Lecture 18 Energy stored in a capacitor
-Lecture 18 Energy stored in a capacitor--作业
-Lecture 19 Magnetism
-Lecture 20 Current & Current Density
--Lecture 20 Current & Current Density
-Lecture 20 Current & Current Density--作业
-Lecture 21 Steady current & Electromotive force
--Lecture 21 Steady current & Electromotive force
-Lecture 22 Magnetic Fields
-Lecture 22 Magnetic Fields--作业
-Lecture 23 Charged Particle in a Magnetic Field
--Lecture 23 Charged Particle in a Magnetic Field
-Lecture 23 Charged Particle in a Magnetic Field--作业
-Lecture 24 Magnetic Force on a Current—Carrying Conductor
--Lecture 24 Magnetic Force on a Current—Carrying Conductor
-Lecture 24 Magnetic Force on a Current—Carrying Conductor--作业
-Lecture 25 Sources of a Magnetic Field
--Lecture 25 Sources of a Magnetic Field
-Lecture 25 Sources of a Magnetic Field--作业
-Lecture 26 Calculation of a magnetic field by applying the Biot-Savart Law
--Lecture 26 Calculation of a magnetic field by applying the Biot-Savart Law
-Lecture 26 Calculation of a magnetic field by applying the Biot-Savart Law--作业
-Lecture 27 Ampere’s Law
-Lecture 27 Ampere’s Law--作业
-Lecture 28 Application of Ampere’s Law
--Lecture 28 Application of Ampere’s Law
-Lecture 28 Application of Ampere’s Law--作业
-Lecture 29 Gauss’s Law in Magnetism
--Lecture 29 Gauss’s Law in Magnetism
-Lecture 29 Gauss’s Law in Magnetism--作业
-Lecture 30 Origin of the magnetic effect of materials
--Lecture 30 Origin of the magnetic effect of materials
-Lecture 30 Origin of the magnetic effect of materials--作业
-Lecture 31 Magnetization
-Lecture 31 Magnetization--作业
-Lecture 32 Magnetic Materials
--Lecture 32 Magnetic Materials
-Lecture 32 Magnetic Materials--作业
-Lecture 33 Faraday’s Law
-Lecture 33 Faraday’s Law--作业
-Lecture 34 Motional EMF
-Lecture 34 Motional EMF--作业
-Lecture 35 Induced Electric Field
--Lecture 35 Induced Electric Field
-Lecture 35 Induced Electric Field--作业
-Lecture 36 Generators
-Lecture 36 Generators--作业
-Lecture 37 Inductance
-Lecture 37 Inductance--作业
-Lecture 38 Energy in a Magnetic Field
--Lecture 38 Energy in a Magnetic Field
-Lecture 38 Energy in a Magnetic Field--作业
-Lecture 39 Maxwell’s Equations
--Lecture 39 Maxwell’s Equations
-Lecture 39 Maxwell’s Equations--作业
胡剑巧,副教授,北京师范大学物理系学士,新加坡国立大学材料科学与工程系博士。先后在新加坡国立大学、香港大学、瑞士Metalor新加坡分公司从事研究工作。入职云南大学后,一直从事材料类专业《大学物理》的本科教学。2011年获云南大学第八届青年教师课堂教学比赛一等奖,2013年入选云南省高校卓越青年教师特殊培养项目,2017年获云南省首届高校教师教学大赛一等奖。 Hu Jianqiao received a BSc from Beijing Normal University and PhD from National University of Singapore. She worked as a Research Associate at the department of chemistry in the University of Hong Kong. Before joining Yunnan University, she pursued the research at R & D department of Metalor Technologies Singapore Pte Ltd. She is currently an Associate Professor at the School of Materials Science and Engineering in Yunnan University. She won the first prize in the 8th teaching competition for young teachers held by Yunnan university in 2011. In 2013, she was selected into the training program for outstanding young teachers of colleges and universities in Yunnan province. In 2017, she won the first prize in the first teaching competition for college teachers in Yunnan province.