普通物理（英文2021—春）_大连理工大学

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SPOC学校专有课程

普通物理（英文2021—春）

第1次开课

开课时间： 2021年02月27日 ~ 2021年06月20日

学时安排： 3-5小时每周

当前开课已结束已有 55 人参加

老师已关闭该学期，无法查看

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—— 课程团队

课程概述

Opening Announcement

Welcome to the course College Physics I from Dalian University of Technology. It will open on February 22, 2021.

The course, which contains Newtonian mechanics, Relativity and Electromagnetics, will last for a total of 14 weeks. The weekly contents, including course video, homework, unit tests and topics for discussion are released every Monday. A final exam will be arranged at the end of the course.

If you have any question please post it in the course forum, the team instructors will give reply as soon as possible.

Team of College Physics

成绩要求

The course grade will be determined as follows:

40% Unit Tests;

10% Discussions (At least 8 times for post or reply based on the topics in forum) ;

50% Final Exam.

60-84 points are qualified, 85 points and above are excellent.

课程大纲

Chapter 2 Motion along a straight line

2.1 Displacement, Time, and Average Velocity

2.2 Instantaneous Velocity

2.3 Average and Instantaneous Acceleration

2.4 Motion with Constant Acceleration

2.5 Freely Falling Bodies

2.6 Velocity and Position by Integration

Chapter 3 Motion in two or three dimensions

3.1 Position and Velocity Vectors

3.2 The Acceleration Vector

3.3 Projectile Motion

3.4 Motion in a Circle

3.5 Relative Velocity

Chapter 4 Newton's laws of motion

4.1 Force and Interactions

42 Newton's First Law

4.3 Newton's Second Law

4.4 Mass and Weight

4.5 Newton's Third Law

4.6 Free-Body Diagrams

Chapter 5 Applying Newton's laws

5.1 Using Newton's First Law:Particles in Equilibrium

5.2 Using Newton's Second Law:Dynamics of Particles

5.3 Frictional Forces

5.4 Dynamics of Circular Motion

5.5 The Fundamental Forces of Nature

Chapter 6 Work and kinetic energy

6.1 Work

6.2 Kinetic Energy and the Work-Energy Theorem

6.3 Work and Energy with Varying Forces

6.4 Power

Chapter 7 Potential energy and energy conservation

7.1 Gravitational Potential Energy

7.2 Elastic Potential Energy

7.3 Conservative and Nonconservative Forces

7.4 Force and Potential Energy

7.5 Energy Diagrams

Chapter 8 Momentum, impulse, and collisions

8.1 Momentum and Impulse

8.2 Conservation of Momentum

8.3 Momentum Conservation and Collisions

8.4 Elastic Collisions

8.5 Center ofMass

8.6 Rocket Propulsion

Chapter 9 Rotation of rigid bodies

9.1 Angular Velocity and Acceleration

9.2 Rotation with Constant Angular Acceleration

9.3 Relating Linear and Angular Kinematics

9.4 Energy in Rotational Motion

9.5 Parallel-Axis Theorem

9.6 Moment-of-Inertia Calculations

Chapter 10 Dynamics of rotational motion

10.1 Torque

10.2 Torque andAngular Acceleration for a Rigid Body

10.3 Rigid-Body Rotation About a Moving Axis

10.4 Work and Power in Rotational Motion

10.5 Angular Momentum

10.6 Conservation of Angular Momentum

10.7 Gyroscopes and Precession

Chapter 37 Relativity

37.1 lnvariance of Physical Laws

37.2 Relativity of Simultaneity

37.3 Relativity of Time Intervals

37.4 Relativity of Length

37.5 The Lorentz Transformation

37.6 The Doppler Effect for Electromagnetic Waves

37.7 Relativistic Momentum

37.8 Relativistic Work and Energy

37.9 Newtonian Mechanics and Relativity

Chapter 21 Electric Charge and Electric Field

21.1 Electric Charge

21.2 Conductors, Insulators, and Induced Charges

21.3 Coulomb's Law

21.4 Electric Field and Electric Forces

21.5 Electric-Field Calculations

21.6 Electric Field Lines

21.7 Electric Dipoles

Chapter 22 Gauss's Law

22.1 Charge and Electric Flux

22.2 Calculating Electric Flux

22.3 Gauss's Law

22.4 Applications of Gauss's Law

22.5 Charges on Conductors

Chapter 23 Electric Potential

23.1 Electric Potential Energy

23.2 Electric Potential

23.3 Calculating Electric Potential

23.4 Equipotential Surfaces

23.5 Potential Gradient

Chapter 24 Capacitance and Dielectrics

24.1 Capacitors and Capacitance

24.2 Capacitors in Series and Parallel

24.3 Energy Storage in Capacitors and Electric-Field Energy

24.4 Dielectrics

24.5 Molecular Model of Induced Charge

24.6 Gauss's Law in Dielectrics

Chapter 25 Current, Resistance, and Electromotive Force

25.1 Current

25.2 Resistivity

25.3 Resistance

25.4 Electromotive Force and Circuits

26.2 Kirchhoff's Rules

展开全部

源课程

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College Physics I

Dalian University of Technology

该SPOC课程部分内容来自以上源课程，在源基础上老师进一步增加了新的课程内容

2 位授课老师

胡晶晶

副教授

李淑凤

教授

胡晶晶

李淑凤

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