Engineering mechanics statics and dynamics / Bela I. Sandor & Karen J. Richter.
Publication details: Englewood Cliffs, N.J. : Prentice-Hall, c1987.Edition: 2nd editionDescription: xv, various pages : ill. (some col.) ; 27 cmISBN:- 0132790920
- 620.1 19 SAN
| Item type | Current library | Call number | Status | Date due | Barcode | Course reserves |
|---|---|---|---|---|---|---|
Book Closed Access
|
Engineering Library | 620.1 SAN (Browse shelf(Opens below)) | Available | BUML23080363 |
CONTENT
CHAPTER 1 Introduction to Engineering mechanics.
1.1 Engineering mechanics
1.2 Basic concepts of mechanics.
1.3 Newton's law.
1.4 Scalars and Vectors.
1.5 Units.
etc.
CHAPTER 2. Forces on particles.
2.1 Two-dimensional force systems. results of concurrent forces
2.2 Vector components of a force
2.3 Units vectors.
2.4 Three-dimensional force systems. Resultants and components of force.
2.5 Method for determining force vector from scalar information.
etc.
CHAPTER 3 Forces on rigid bodies.
3.1 External and internal forces.
3.2 Equivalent force
3.3 Moment of a force
3.4 Vector product of two vectors. Moment of a force about a point.
3.5 Triple products of three vectors.
etc.
CHAPTER 4. Equilibrium of rigid forces bodies.
4.1 Complete equilibrium conditions
4.2 Free-body diagrams.
4.3 Calculation of unknown forces and moments in two dimension
4.4 Two-force members.
4.5 Calculation of unknown forces and moments in three dimensions
etc
CHAPTER 5 Forces and moments in beams.
5.1 classification of supports
5.2 Internal forces and moments
5.3 Sign conventions
5.4 Shear and bending moments diagrams
CHAPTER 6 .Analysis of simple structures and machines.
6.1 Trusses.
6.2 Methods of joints
6.3 Special cases of joints.
6.4 Forma procedure in joint analysis
6.5 Graphical analysis of Trusses. Maxwell diagram
etc.
CHAPTER 7 distributed forces
7.1 Centre of gravity
7.2 Centroids of lines, areas and volumes
7.3 Composite objects
7.4 Theorems of papus
7.5 Distributed loads and structures. External reactions.
etc.
CHAPTER 8 Friction
8.1 Dry friction
8.2 Angels of friction
8.3 Classification of problems of dry friction.
8.4 Wedges and screws.
8.5 Disk friction.
etc.
CHAPTER 9 Moment of inertia.
9.1 Moments of inertia of a mass.
9.2 Moments od inertia of an area.
9.3 Polar moment of inertia of an area.
9.4 Parallel-axis theorem.
etc
CHAPTER 10 work and potential energy
10 1 Work of force.
10.2 Work of a couple.
10.3 Virtual work.
10.4 Mechanical efficiency of real systems
10.5 Potential energy.
CHAPTER 11 Kinematic of particle scalar
11.1 Rectilinear position, velocity and acceleration.
11 2 Measured and derived quantities as functions of time.
11.3 Useful expression based on acceleration
etc
CHAPTER 12. Kinematics of particles: vector analysis.
12.1 Curvilinear motion. rectangular Cartesian coordinates
12.2 Physical aspects of velocity and acceleration in curvilinear motion.
12.3 Tangential and normal components.
12.4 Motion of a particle in polar coordinates.
etc.
CHAPTER 13 Kinetics of particles Newton's law second law.
13.1 Newton's second law of motion.
13.2 Systems of units
13.3 Equations of motion
etc.
CHAPTER 14 Kinetics of particles work and energy methods.
14.1 Work of force
14.2 Potential energy and work.
14. 3 Kinetic energy principles of work and energy.
etc.
CHAPTER 15 Kinetics of particles: momentum methods.
15.1 Linear momentum. time rate of change of linear momentum
15. 2 Angular momentum
15 3 Time rate momentum
etc.
CHAPTER 16 Kinetic of particles: compilation of methods strategies for solving problems.
16 1 Overview of kinetics analysis of particles.
CHAPTER 17 Kinetics of systems of particles
17. 1 Newton's second law applied to a system of particles.
17.2 Motion of the centre of mass.
17.3 Gravitational potential energy of a system of particles
etc.
CHAPTER 18
18 .1 Translation
18.2 Rotation about a fixed axis.
18.3 Kinetics equations for rotating rigid bodies
etc.
CHAPTER 19 Kinetics of rigid bodies in plane motion.
19. 1 Equation of translational motion
19.2 Equation of rotational motion
19.3 Application of equations of motion.
etc.
CHAPTER 20 Energy and momentum methods for rigid bodies in plane motion.
20.1 Work of a force on a rigid body.
20.2 Kinetic energy of a rigid body.
etc.
CHAPTER 21. Kinetics of rigid bodies in three dimensions.
21. 1 Angular momentum in three dimension
21.2 Impulse and momentum of a rigid body
etc.
CHAPTER 22 Variations
22. 1 simple harmonic motion
22.2 Free vibrations of particles without damping.
22.3 Free vibration of rigid bodies.
Index : p. I1-I7
There are no comments on this title.