个人介绍
大学物理 A(1)(双语)

主讲教师:Scott Edwards (赵安得)

教师团队:共1

  • Scott Edwards (赵安得)
学校: 深圳大学
开课院系: 物理与能源学院
专业大类: 物理学
学分: 4
课时: 50 
     The goal of this course is to lead you beyond the high-school level focus on “plug-and-chug” and into a deeper appreciation of the fundamental principles underlying all physical processes, as understood at the start of the 21st century. The most important of these principles are the “Momentum Principle” (i.e. Newton’s 2nd Law in its original form), the “Energy Principle”, and the “Angular Momentum Principle”. The first half of the course focuses on introducing these principles and applying them to analyze and predict the mechanical behavior of a wide range of real-world systems. The second half of the course introduces another fundamental principle, the “field” concept, which is used to explain electrical and magnetic phenomena, leading up to the realization that light itself is a form of electromagnetic radiation. 

     这门课程的目标是带领大家超越高中时的“套公式”,能够深入理解所有物理过程背后的基本原理(基于21世纪初的理解)。这些原理中最重要的包括”动量“;课程的前半部分会重点介绍这些原理并运用他们来分析和预测现实世界中一大类问题的力学特性。后半部分课程会介绍另一些基本原理:场的概念,以解释电磁现象,最终导出光本身就是电磁辐射的一种形式。

     Throughout the course, the atomic structure of matter is explicitly taken into account, and other “modern” concepts such as the relativistic definitions of momentum and energy are integrated into the body of the curriculum. By the end of the course, you should be able to use the fundamental principles of physics as a starting point for independently analyzing many complex physical systems.

     物质的原子概念将贯穿课程始终,其他现代物理的概念诸如动量和能量的相对论定义会放在选修内容中介绍。学完本课程,你将学会如何以基本物理原理为出发  点去独立分析复杂物理系统。
教师简介

Scott Edwards (赵安得)

职称:教师

单位:深圳大学

部门:物理与能源学院

职位:副教授

课程章节
1
Week 1
4
Week 4
7
Week 7
10
Week 10
13
Week 13
2
Week 2
5
Week 5
8
Week 8
11
Week 11
14
Week 14
3
Week 3
6
Week 6
9
Week 9
12
Week 12
15
Week 15
教学条件


教学方法

At the core of this course are the videos, which have been designed to approximate as much as possible the experience of standing with me at a blackboard and figuring things out together.

视频是课程的核心内容,我们的目标是尽可能让学生觉得和教师一起站在黑板旁边,分析事情的来龙去脉。

It is extremely important that you take an active approach to watching the videos. Have a pen in your hand and paper in front of you, and work along with me.

观看视频时主动参与是非常重要的。请准备一支笔和一张纸,跟我一起进行推导。 

It is also extremely important to ask questions as soon as you encounter something you don’t understand! There are sure to be things I don’t explain clearly in the videos, so don’t be afraid to let me know if you are struggling with certain concepts. Asking questions will be possible through the online forum.

遇到不明白的问题及时提问也是很重要的。在视频中我不可能将所有的内容都解释一遍,所以你不必害怕告诉我有些概念很难弄懂。在线讨论中就可以提问。 

The course is organized into 15 weekly units – 7 on mechanics, and 8 on electromagnetism. Every week, you will independently work through 10 – 12 videos, each about 10 minutes long. Practice questions after each video will help to solidify the key concepts, and at the end of the week, you will complete a set of homework problems to tie everything together. To do well in this course, you should expect to devote about 10 hours every week to it, including time spent watching the videos.

课程按15周设置:力学7周,电磁学8周。每周10-12个视频,每个10分钟。每节课后做习题可以帮助你理解概念,每周末你需要完成一套家庭作业以回顾本周内容。想取得好成绩,你每周需要花约10小时(包括观看视频的时间)。

随身课堂

参考教材

This course is based on "Matter and Interactions 

(3rd ed.)" by Ruth Chabay and Bruce Sherwood 

(Wiley 2010 - http://matterandinteractions.org). 

However, you will not need the book to complete 

the course. 

Chapter 1 of the textbook can be downloaded for free 

from here: 

http://matterandinteractions.org/student/index.html

3D demo computer programs, similar to those shown 

in the videos, can be found here: 

http://matterandinteractions.org/student/

Mechanics/DemoPrograms/DemoPrograms.html

Another excellent textbook is "Simple Nature" by Benjamin Crowell. The whole book can be dowloaded for free from his website: http://lightandmatter.com/area1sn.html. 

This book takes a somewhat different approach to "Matter and Interactions", but shares with it a strong emphasis on the fundamental principles of momentum, energy, and angular momentum.

教学进度
周 次      内 容
  1Introduction; vectors; momentum
  2Newton's Second Law - the "Momentum Principle"
  3Forces
  4Using the Momentum Principle
  5The Energy Principle
  6Internal energy; rotational kinetic energy
  7The Angular Momentum Principle
  8Electric field
  9Electric fields and matter
 10Electric fields of distributed charge
 11Electric potential
 12Magnetic field
 13Magnetic force
 14Gauss's Law and Ampere's Law
 15Faraday's Law; Fields traveling through space
考核方式

(1)线上成绩(平时成绩)占总成绩的70%,具体成绩权重包括:

    权 重分 数                               备 注
课程视频权重30 %课程视频全部看完得满分,单个视频分值平均分配,满分100分
课程测验权重20 %学生接收到的所有测验任务点平均分配,未做测验按“零”分计
作业权重20 %所有作业的平均分
考试权重30 %所有考试的平均分

(2)线下考试成绩(期末考试成绩) 占总成绩的30% 

 备注:深圳大学选修本课程的同学,期末总课程成绩由以上两部分构成,对于UOOC联盟高校选修本MOOC课程的同学而言,线上的总成绩(各部分权重如上所述)即为期末考试的总成绩。

教学资源
课程章节资源
课程章节 | 文件类型   | 修改时间 | 大小 | 备注
1.1 Introduction
视频
.mp4
2017-02-17 121.18MB
 
作业
.work
2017-02-17 --
1.2 Interactions cause change
视频
.mp4
2017-02-17 112.04MB
 
作业
.work
2017-02-17 --
1.3 Vectors: components and magnitude
视频
.mp4
2016-02-17 172.25MB
 
作业
.work
2016-02-17 --
1.4 What vectors can and cannot do
视频
.mp4
2016-02-17 73.29MB
 
作业
.work
2016-02-17 --
1.5 Unit vectors
视频
.mp4
2016-02-17 78.46MB
 
作业
.work
2016-02-17 --
1.6 Vector addition and subtraction
视频
.mp4
2016-02-17 47.67MB
 
作业
.work
2016-02-17 --
1.7 Displacement and velocity
视频
.mp4
2017-03-20 77.75MB
 
作业
.work
2017-03-20 --
1.8 Predicting a new position
视频
.mp4
2016-02-17 68.06MB
 
作业
.work
2016-02-17 --
1.9 Instantaneous velocity
视频
.mp4
2016-02-17 79.93MB
 
作业
.work
2016-02-17 --
1.10 Example: spacecraft
视频
.mp4
2016-02-17 97.83MB
 
作业
.work
2016-02-17 --
1.11 Momentum
视频
.mp4
2017-03-20 142.85MB
 
作业
.work
2017-03-20 --
1.12 Change in momentum
视频
.mp4
2016-02-18 75.43MB
 
作业
.work
2016-02-18 --
2.1 Newton's 2nd Law
视频
.mp4
2016-03-08 73.85MB
 
作业
.work
2016-03-08 --
2.2 Impulse
视频
.mp4
2016-02-18 30.75MB
 
作业
.work
2016-02-18 --
2.3 How to predict the future (part 1)
视频
.mp4
2016-02-18 62.79MB
 
作业
.work
2016-02-18 --
2.4 How to predict the future (part 2)
视频
.mp4
2016-03-03 89.87MB
2.5 What about F = ma?
视频
.mp4
2015-11-19 74.67MB
2.6 Updating position
视频
.mp4
2016-02-18 32.31MB
 
作业
.work
2016-02-18 --
2.7 Non-constant force
视频
.mp4
2016-02-25 32.66MB
2.8 Iterative prediction of motion
视频
.mp4
2016-02-25 68.40MB
 
作业
.work
2016-02-25 --
2.9 Can't we just use calculus?
视频
.mp4
2015-11-19 83.83MB
2.10 A special case: constant force
视频
.mp4
2017-03-20 67.78MB
2.11 Example: soccer penalty kick
视频
.mp4
2017-03-20 97.32MB
 
作业
.work
2017-03-20 --
2.12 Estimating interaction times
视频
.mp4
2016-02-25 135.18MB
 
作业
.work
2016-02-25 --
3.1 Classifying interactions
视频
.mp4
2016-02-25 172.34MB
 
作业
.work
2016-02-25 --
3.2 Gravitation
视频
.mp4
2016-02-25 70.90MB
3.3 Example: Earth and the Moon
视频
.mp4
2016-02-25 71.82MB
3.4 Solving the Earth's orbit iteratively
视频
.mp4
2016-02-25 77.13MB
3.5 Gravitation near the Earth's surface
视频
.mp4
2016-02-25 61.44MB
3.6 The electric force
视频
.mp4
2016-02-25 94.88MB
3.7 Limitations on predicting the future
视频
.mp4
2016-02-25 98.72MB
3.8 The ball-and-spring model of matter
视频
.mp4
2016-02-25 114.29MB
3.9 Tension
视频
.mp4
2017-03-20 98.73MB
3.10 Friction
视频
.mp4
2016-02-25 77.02MB
4.1 Conservation of momentum
视频
.mp4
2016-02-26 76.44MB
4.2 Center of mass
视频
.mp4
2016-02-25 71.55MB
4.3 Instantaneous version of Newton's 2nd Law
视频
.mp4
2016-02-25 54.79MB
4.4 Statics: dp/dt = 0
视频
.mp4
2016-02-25 131.86MB
4.5 Example: pushing a box, with friction
视频
.mp4
2016-03-29 88.75MB
4.6 Judging the direction of dp/dt
视频
.mp4
2016-02-25 31.09MB
4.7 Curving motion: parallel and perpendicular components of dp/dt
视频
.mp4
2016-02-25 74.73MB
4.8 Components from the vector dot product
视频
.mp4
2016-02-25 69.59MB
4.9 Example: a falling ball
视频
.mp4
2016-02-25 46.60MB
4.10 Rate of change of direction
视频
.mp4
2017-03-20 93.04MB
4.11 Example: kissing circle for falling ball
视频
.mp4
2016-02-25 52.01MB
4.12 Example: swinging a bucket
视频
.mp4
2016-02-25 78.21MB
5.1 The Energy Principle
视频
.mp4
2016-02-25 62.13MB
5.2 Energy of a single particle
视频
.mp4
2016-02-25 84.69MB
5.3 Kinetic energy
视频
.mp4
2016-02-25 78.01MB
5.4 Work
视频
.mp4
2016-02-25 89.01MB
5.5 Examples: cricket ball, neutron decay
视频
.mp4
2016-03-31 141.63MB
5.6 Proof of the Energy Principle
视频
.mp4
2016-02-25 61.67MB
5.7 Work done by a non-constant force
视频
.mp4
2016-02-25 56.08MB
5.8 Potential energy
视频
.mp4
2016-02-25 70.35MB
5.9 Gravitational potential energy
视频
.mp4
2016-02-25 77.62MB
5.10 Example: Spacecraft leaving an asteroid
视频
.mp4
2017-02-17 73.56MB
5.11 Bound and unbound states
视频
.mp4
2017-02-17 52.51MB
5.12 Electrical potential energy
视频
.mp4
2016-02-25 62.42MB
6.1 Force is the negative gradient of potential energy
视频
.mp4
2016-02-25 35.68MB
6.2 Spring potential energy
视频
.mp4
2016-02-25 94.87MB
6.3 Example: bungee jumping
视频
.mp4
2016-02-25 66.87MB
6.4 Path independence of potential energy
视频
.mp4
2016-02-25 70.09MB
6.5 Internal energy
视频
.mp4
2016-02-25 160.70MB
6.6 Dissipation and power
视频
.mp4
2016-02-25 77.48MB
6.7 Translational and rotational kinetic energy
视频
.mp4
2016-02-25 74.38MB
6.8 Moment of inertia
视频
.mp4
2016-02-25 42.00MB
6.9 Calculating moment of inertia
视频
.mp4
2016-02-25 114.34MB
6.10 Parallel axis theorem
视频
.mp4
2016-02-25 71.78MB
6.11 Example: rolling down a hill
视频
.mp4
2016-02-25 71.13MB
7.1 Translational angular momentum
视频
.mp4
2016-02-25 122.85MB
7.2 Direction of the angular momentum vector
视频
.mp4
2016-04-11 118.92MB
7.3 Vector cross product
视频
.mp4
2016-04-13 90.85MB
7.4 Example: a falling ball
视频
.mp4
2016-02-25 74.13MB
7.5 Rotational angular momentum
视频
.mp4
2016-02-25 92.68MB
7.6 Total angular momentum
视频
.mp4
2016-02-25 46.02MB
7.7 Torque and the Angular Momentum Principle
视频
.mp4
2016-02-25 79.94MB
7.8 Example: a comet
视频
.mp4
2016-04-18 68.59MB
7.9 Angular Momentum Principle for multiparticle systems
视频
.mp4
2016-02-25 51.84MB
7.10 Example: a seesaw
视频
.mp4
2016-02-25 81.82MB
7.11 Example: a diver
视频
.mp4
2016-02-25 62.94MB
7.12 Example: a stick sliding on ice
视频
.mp4
2016-02-25 67.62MB
8.1 Electric charge
视频
.mp4
2016-04-11 230.02MB
8.2 Example: force between two protons
视频
.mp4
2016-02-25 90.09MB
8.3 Electric field
视频
.mp4
2017-02-17 174.58MB
8.4 Field of a single point charge
视频
.mp4
2017-02-17 114.91MB
8.5 Example: where is the charge?
视频
.mp4
2016-02-25 72.09MB
8.6 Superposition
视频
.mp4
2016-02-25 49.74MB
8.7 Example: superposition of two charges
视频
.mp4
2016-02-25 83.28MB
8.8 Electric dipole – parallel axis (part 1)
视频
.mp4
2016-05-09 102.96MB
8.9 Electric dipole – parallel axis (part 2)
视频
.mp4
2016-02-25 66.61MB
8.10 Electric dipole – perpendicular axis
视频
.mp4
2016-02-25 107.61MB
8.11 Example: interaction between a dipole and a point charge
视频
.mp4
2016-02-25 60.71MB
8.12 Dipole moment
视频
.mp4
2016-02-25 102.79MB
9.1 Charged particles in matter
视频
.mp4
2017-02-17 75.50MB
9.2 How do objects become charged?
视频
.mp4
2016-02-25 58.92MB
9.3 Example: how much charge on a piece of tape?
视频
.mp4
2016-02-25 64.94MB
9.4 Polarization of atoms
视频
.mp4
2016-02-25 54.38MB
9.5 Interaction between a neutral atom and a point charge
视频
.mp4
2016-02-25 38.20MB
9.6 Polarization of insulators
视频
.mp4
2016-02-25 44.93MB
9.7 Polarization of conductors
视频
.mp4
2016-02-25 51.58MB
9.8 Charge motion in metals
视频
.mp4
2016-02-25 62.27MB
9.9 Example: a rod and a ball
视频
.mp4
2016-02-25 62.69MB
9.10 Practical limits on measuring the field
视频
.mp4
2016-02-25 48.99MB
10.1 Uniform thin rod: introduction
视频
.mp4
2016-03-29 59.97MB
10.2 Uniform thin rod: break it into pieces
视频
.mp4
2017-02-17 68.09MB
10.3 Uniform thin rod: add up the pieces
视频
.mp4
2016-03-29 104.86MB
10.4 Uniform thin rod: check the answer
视频
.mp4
2016-03-29 79.59MB
10.5 Example: a hollow cylinder
视频
.mp4
2016-03-29 111.52MB
10.6 Uniform thin ring
视频
.mp4
2016-03-29 87.58MB
10.7 Uniform disk (part 1)
视频
.mp4
2016-03-29 62.96MB
10.8 Uniform disk (part 2)
视频
.mp4
2016-03-29 54.32MB
10.9 Example: a rod and a disk
视频
.mp4
2016-03-29 102.17MB
10.10 Two uniform disks: a capacitor
视频
.mp4
2016-05-11 87.68MB
10.11 Spherical charge distributions
视频
.mp4
2016-03-29 157.01MB
11.1 Systems of charged objects
视频
.mp4
2016-03-29 64.65MB
11.2 Potential difference in a uniform field
视频
.mp4
2016-03-30 73.35MB
11.3 Field from potential difference
视频
.mp4
2016-03-30 65.95MB
11.4 Potential difference in a non-uniform field
视频
.mp4
2016-03-30 76.54MB
11.5 Potential difference near a point charge
视频
.mp4
2016-03-30 59.65MB
11.6 Path independence
视频
.mp4
2016-03-30 80.39MB
11.7 Potential at one location
视频
.mp4
2016-03-30 68.35MB
11.8 Example: potential of a uniform ring
视频
.mp4
2016-03-30 71.62MB
11.9 Potential difference in an insulator
视频
.mp4
2016-03-30 74.97MB
11.10 Energy density and electric field
视频
.mp4
2016-03-30 60.08MB
12.1 Magnetic field
视频
.mp4
2016-03-30 84.17MB
12.2 Biot-Savart Law for a single moving charge
视频
.mp4
2016-03-30 94.31MB
12.3 Electron current
视频
.mp4
2016-03-30 79.29MB
12.4 Conventional current
视频
.mp4
2016-03-30 57.71MB
12.5 Biot-Savart Law for currents
视频
.mp4
2016-03-30 46.43MB
12.6 Magnetic field of a long straight wire
视频
.mp4
2016-03-30 120.36MB
12.7 Magnetic field of a circular current loop
视频
.mp4
2016-03-30 84.19MB
12.8 Magnetic dipole moment
视频
.mp4
2016-03-30 46.41MB
12.9 Magnetic field of a bar magnet
视频
.mp4
2016-03-30 64.23MB
12.10 Atomic structure of magnets
视频
.mp4
2016-03-30 118.27MB
13.1 Magnetic force on a moving charge
视频
.mp4
2016-03-30 145.73MB
13.2 Magnetic force on a current-carrying wire
视频
.mp4
2016-03-30 94.31MB
13.3 Combining electric and magnetic forces
视频
.mp4
2016-03-30 78.73MB
13.4 The Hall effect
视频
.mp4
2016-03-30 83.55MB
13.5 Motional emf
视频
.mp4
2016-03-30 87.76MB
13.6 Magnetic torque
视频
.mp4
2016-03-30 118.10MB
13.7 Potential energy for a magnetic dipole
视频
.mp4
2016-03-30 71.64MB
13.8 Force on a magnetic dipole
视频
.mp4
2016-03-30 93.95MB
13.9 Example: the Stern-Gerlach experiment
视频
.mp4
2016-03-30 76.59MB
13.10 Motors and generators
视频
.mp4
2016-05-06 77.46MB
14.1 Patterns of electric field
视频
.mp4
2016-06-06 84.08MB
14.2 Electric flux
视频
.mp4
2016-06-06 86.15MB
14.3 Gauss’s Law (part 1)
视频
.mp4
2016-06-06 64.01MB
14.4 Gauss’s Law (part 2)
视频
.mp4
2016-06-06 102.54MB
14.5 Reasoning from Gauss’s Law
视频
.mp4
2016-06-06 134.71MB
14.6 Proving some important properties of metals
视频
.mp4
2016-06-06 76.51MB
14.7 Gauss’s Law for magnetism
视频
.mp4
2016-06-06 61.57MB
14.8 Patterns of magnetic field: Ampere’s Law
视频
.mp4
2016-06-06 104.74MB
14.9 Applications of Ampere’s Law
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2016-06-06 75.38MB
14.10 Maxwell’s equations
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2016-06-06 28.92MB
15.1 Curly electric fields
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2016-06-06 133.76MB
15.2 Faraday’s Law (part 1)
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2016-06-06 116.24MB
15.3 Faraday’s Law (part 2)
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2016-06-06 94.50MB
15.4 Faraday’s Law and motional emf
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2016-06-06 70.53MB
15.5 Maxwell's equations (again)
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2016-06-06 80.43MB
15.6 Inductance
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2016-06-06 98.50MB
15.7 Energy density in magnetic fields
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2016-06-06 110.94MB
15.8 The Ampere-Maxwell Law
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2016-06-06 146.88MB
15.9 Fields traveling through space (part 1)
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2016-06-06 100.67MB
15.10 Fields traveling through space (part 2)
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2016-06-06 173.61MB
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