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《大学物理(2)(英文)》课程教学大纲

课程编号: 00900061

课程名称：大学物理(2)(英文)

英文名称：University Physics (2)

总学时：40

学　　分：2.5

适用对象: the second year engineering students

先修课程：calculus, linear algebra, university physics (1)

一、课程性质、目的和任务

University Physics (1) and University Physics (2) are a one-year introductory calculus-based physics course for engineering and science students. This course, surveying the theoretical and experimental fundamentals of classical physics, is the foundation for all other physics courses and many other courses in other natural sciences (and in engineering) as well. Having successfully completed this course, the student will have acquired knowledge of classical physics, experience with the scientific approach to investigation, understanding of the integrity expected of scientific investigation, some proficiency in techniques for problem solving, and acquaintance with procedures needed for meaningful measurements in the laboratory.

二、教学内容、方法及基本要求

This class provides the opportunity for students to develop or demonstrate knowledge, understanding and skills in the following areas:

Knowledge based outcomes

Learning

Method

Assessment Method

1) electrostatic field

2) magnetic field

3) electromagnetic induction

L, DR, CD

AH, Q

Learning methods: Lecture (L), Class Discussions (CD), Directed Reading (DR)

Assessment methods: Quiz (Q), Exam (Ex), Assessed Homework (AH)

三、实践环节的内容、方法及基本要求

无（注：根据具体实验项目列出实验的性质和学时、内容及要求）

四、各教学环节学时分配

Lecture	Week	Hours	Lecture Title/Subject
1	1	2	Coulomb's law, Superposition principle of electric fields, Electric field due to continuous charge distributions
2	1	2	Electric flux, Gauss's law
3	2	2	Application of Gauss’s Law to Symmetric Charge distributions
4	2	2	Electric Potential Energy Difference and Electric Potential Energy, Electric potential and potential difference, superposition principle of electric potential
5	3	2	Electric potential due to continuous charge distributions, Relation Between Electric field and Electric Potential
6	3	2	Conductors in electrostatic equilibrium
7	4	2	Exercises
8	4	2	Dielectric and dielectric polarization, Gauss’s Law as applied to dielectric
9	5	2	Capacitor and its capacitance, Energy stored in electrostatic field，Exercises
10	5	2	Magnetic forces, Motion of a charged particle in a magnetic field
11	6	2	Magnetic force on a current-carrying wire
12	6	2	The Biot-Savart law and applications, Gauss's law for the magnetic field
13	7	2	Exercises
14	7	2	Ampere's law and applications, displacement current and the generalized Ampere's law
15	8	2	Magnetism in matter
16	8	2	Exercises
17	9	2	Faraday's law of induction, Lenz's Law, motional electromotive force and induced electromotive force, Induced electric field
18	9	2	Mutual inductance, Self-inductance, Energy stored in a magnetic field, Maxwell's equations, electromagnetic waves
19	10	2	Exercises
20	10	2	Review

五、考核方式

Performance will be assessed by means of:

(i) Homework and quizzes --- 30%

(ii) A formal written examination at the midsemester --- 20%

(iii) A formal written examination at the end of the semester --- 50%

All marks will be returned to students at the end of final exam.

六、对学生能力培养的体现

Having successfully completed this course, the student will have acquired knowledge of classical physics, experience with the scientific approach to investigation, understanding of the integrity expected of scientific investigation, some proficiency in techniques for problem solving, and acquaintance with procedures needed for meaningful measurements in the laboratory.

七、推荐教材和参考文献

Essential Reading

Additional Reading

大纲制订人：胡冰

大纲审定人：马德香

大纲校对人：黄霞

制订日期： 2014年11月