Chapter 1 The Kinematics of Mass Points
1-1 The Description of the Motion of Mass Points
1. Reference frames,mass point
2. Position vector, equation of motion and displacement
3. Velocity
4. Acceleratio
1-2 Motion in a Circle
1. Planar polar coordinate system
2. Angular velocity of the circular motion
3. Tangential and normal acceleration of circular motion,
angular acceleration
4. Circular motion with cotant speed and circular motion with
cotant variation rate of speed
1-3 Relative Motion
1. Time and space
2. Relative motion
QUESTIONS
EXERCISES
Chapter 2 Newton's Laws
2-1 Newton's Laws
1. Newton's fit law
2. Newton's second law
3. Newton's third law
4. Relativity principle of force
2-2 Units and Dimeio of Physical Quantities
2-3 Some Forces often Seen
1. The gravitational force
2. Elastic force
3. Friction force
2-4 Examples of the Applicatio of the Newton's Law
*2-5 Non-inertial Reference Frames, Inertial Forces
QUESTIONS
EXERCISES
Chapter 3 The Laws of Momentum Coervation and Energy Coervation
3-1 Momentum Theorem of a Mass Point and the Mass Point System
1. Impulse,momentum theorem of a mass point
2. Theorem of momentum of the object system
3-2 The Law of Momentum Coervation
*3-3 The Mass Traport Problem within a System
3-4 The Theorem of Kinetic Energy
1. Work
2. The theorem of kinetic energy of a particle
3-5 Coervation Force,Non- coervation Force and Potential Energy
1. The features of the work done by univeal gravitational force
and the elastic force
2. Coervation forces and non-coervation forces,the mathematical
expression of the work done by coervation force
3. Potential energy
4. Potential curve
3-6 The Principle of Work-energy and the Law of the Coervation
of Mechanical Energy
1. The theorem of kinetic energy of a system of particles
2. The theorem of work-energy of the system of particles
3. The law of coervation of mechanical energy
*4. The univeal speeds
3-7 Complete Elastic Collisio, Complete Inelastic Collisio
3-8 The Law of Energy Coervation
3-9 Center of Mass,the Law of Mass Center Motion
1. Center of mass
2. The law of motion of center of mass
*3-10 Symmetry and Coervative Law
1. Symmetry
2. Coervation law and the symmetry
QUESTIONS
EXERCISES
Chapter 4 Rotation of Rigid Body
4-1 The Rotation of a Rigid Body about a Fixed Axis
1. The angular velocity and angular acceleration of a rotating
rigid body
2. Formula of fixed axis rotation with cotant angular
acceleration
3. The relatiohip between angular quantities and linear
quantities
4-2 Torque,the Law of Rotation,Moment of Inertia
1. Torque
2. The law of rotation
3. The moment of inertia
4. The theorem of parallel axes
4-3 Angular Momentum, the Law of Angular Momentum Coervation
1. The theorem of angular momentum and the law of the
coervation of the angular momentum of mass points
2. The theorem of angular momentum and the principle of
coervation of angular momentum of a rigid body rotating about a
fixed axis
4-4 Work Done by a Torque, the Theorem of Kinetic Energy of a
Rigid Body Rotating about a Fixed Axis
1. Work done by a torque
2. The power of a torque
3. The kinetic energy of rotation
4. The theorem of kinetic energy of a rigid body rotating about
a fixed axis
*4-5 The Tralation of a Rigid Body on a Plane
*4-6 The Precession of Rigid Body
*4-7 The Newtonian Proposition of the Univeal Gravitational Force
1. The calculation of gravitation between objects
2. Proving elliptical orbit
*4-8 The Successes and Limitatio of Classical Mechanics
1. Classical mechanics is only applicable for low speed
motio,not for high speed motio
2. Determinism and randomness
3. The continuity and quantization of energy
QUESTIONS
EXERCISES
Chapter 5 The Static Electric Field
5-1 The Quantization of the Electric Charge and the Charge
Coervation Law
1. The quantization of the electric charge,the charge
coervation law
2. The charge coervation law
5-2 The Coulomb's Law
5-3 The Electric Field Inteity
1. Statistic electric field
2. The electric field inteity
3. The electric field inteity of a point charge
4. The superposition principle of electric field inteities
5. The electric field inteity of the electric dipole
5-4 The Flux of Electric Fields, the Gauss Theorem
1. Electric field line
2. The flux of electric field inteity
3. Gauss theorem
4. Examples of applicatio of Gauss theorem
*5-5 Milikan's Experiment of the Electron Charge Determination
5-6 The Circuital Theorem of Static Electric Field, Electric
Potential Energy
1. Work done by static electric field force
2. Circuital theorem of a static electric field
3. Electric potential energy
5-7 The Electric Potential
1. The electric potential
2. The electric potential of point charge electric fields
3. The superposition principle of electric potentials
5-8 Electric Field Inteity and Electric Potential Gradient
1. Equipotential surface
2. The electric field inteity and the electric potential
gradient
*5-9 The Electric Dipole in a Static Electric Field
1. The orientation effect of an external electric field on the
torque of an electric dipole
2. The electric potential energy and the equilibrium position
of an electric dipole in an electric field
QUESTIONS
EXERCISES
Chapter 6 Conducto and Dielectrics in Static Electric Fields
6-1 Conducto in Static Electric Fields
1. Electrostatic induction and condition of electrostatic
equilibrium
2. The charge distribution of a conductor at electrostatic
equilibrium
3. Electrostatic screening
6-2 Dielectrics in Static Electric Field
1. The influence of dielectric on electric capacity, the
relative permittivity
2. The polarization of dielectric
3. The inteity of polarization
4. The relatiohip between polarized charges and free charges
6-3 Electric Displacement, the Gauss Theorem at the Presence of
the Dielectric
6-4 Capacity,Condeer
1. The capacity of an isolated conductor
2. Condeer
3. The series connection and parallel connection of condee
6-5 Energy of Static Electric Fields,Energy Deity
1. The electric energy of the condeer
2. The energy Of the static electric field, energy deity
*6-6 The Charge and Discharge of the Condee
1. Charging a condeer
2. Discharging a condeer
*6-7 Applicatio of Electrostatics
1. Van der Graaff generator
2. Electrostatic removal of dusts
3. Electrostatic separation
QUESTIONS
EXERCISES
Chapter 7 The Steady Magnetic Field
7-1 The Steady Current
1. The electric current,the current deity
*2. The continuity equation of the current,the conditio of the
steady current
7-2 The Power Source, the Electromotive Force
7-3 The Magnetic Field,the Magnetic Induction
7-4 The Blot- Savart Law
1. The Blot-Savart Law
2. The examples of applicatio of the Blot-Savart law
3. The magnetic dipole moment
4. The magnetic field of a moving charge
7-5 The Magnetic Flux,the Gauss Theorem of the Magnetic Field
1. The lines of magnetic induction
2. The magnetic flux, the Gauss theorem of magnetic field
7-6 The Ampere Circuital Theorem
1. The Ampere circuital theorem
2. The examples of applicatio of the Ampere clrcuital theorem
7-7 The Motio of Charged Particles in Electric and Magnetic
Fields
1. The force a charged particle is subjected to in electric and
magnetic fields
2. The examples of charged particles moving in a magnetic field
3. The examples of the motio of charged particles in electric
and magnetic fields
7-8 The Magnetic Force Acting on a Wire with Current
1. The Ampere force
2. The torque of magnetic force on coils with current
7-9 The Magnetic Media in a Magnetic Field
1. The magnetic media, the inteity of magnetization
2. The Ampere circuital theorem of the magnetic media, the
magnetic field inteity
3. Ferromagnetic materials
QUESTIONS
EXERCISES
Chapter 8 The Electromagnetic Induction, the Electromagnetic Field
8-1 The Law of Electromagnetic Induction
1. The phenomena of electromagnetic induction
2. The law of electromagnetic induction
3. The Lenz law
8-2 The Motional and Induced Electromotive Forces
1. The motional electromotive force
2. The induced electromotive force
*3. The electronic induction accelerator
*4. The eddy current
8-3 The Self- Induction and the Mutual-Induction
1. The self-induced electromotive force,the self induction
2. The mutual induction electromotive force ,the mutual
induction
*8-4 TheRL Circuit
8-5 The Energy of the Magnetic Field, the Energy Deity of the
Magnetic Field
8-6 The Displacement Current,the Integral Form of the
Fundamental Equatio of the Electromagnetic Field
1. The displacement current,the total current Ampere circuital
theorem
2. The electromagnetic field,the integral form of Maxwell's
equatio of the electromagnetic field
QUESTIONS
EXERCISES
Appendix 1 Vecto
Appendix 2 The Legitimate Metric Units of China and the
International System of Units (SI)
Appendix 3 Some Common Data of Air,Water,the Earth and the Solar
System
Awe for Exercises in Part Ⅰ