TY - BOOK AU - Ferdinand,P.Beer ...[et al] TI - Vector mechanics for engineers: Ferdinand P. Beer . . . [et al] SN - 9780072976878 U1 - 620.104 22 PY - 2007/// CY - New Delhi PB - Tata McGraw-Hill KW - Statics KW - Vector analysis KW - Applied mechanics N1 - CONTENT Chapter 11: Kinematics particles 11.1 Introduction 11.2 Position, velocity and acceleration 11.3 Determination of the motion of a particle 11.4 Uniform rectilinear motion etc. Chapter 12: Kinetics of particles: Newton's second law 12.1 Introduction 12.2 Newton's second law of motion 12.3 Linear momentum of a particle. rate of change of linear momentum 12. 4 Systems of units etc. Chapter 13: Kinetics of particles: Energy and momentum methods 13.1 Introduction 13.2 Work of a force 13.3 Kinetic energy of a particle, principle of work and energy 13.4 Applications of the principle of work and energy etc. Chapter 14: Systems of particles 14.1 Introduction 14.2 Application of newton's laws to motion of a system of particles 14.3 Linear and angular momentum of a system of particles 14.4 Motion of mass center of a system of particles etc. Chapter 15: Kinematics of rigid bodies 15.1 Introduction 15.2 Translation 15.3 Rotation about a fixed axis 15.4 Equations defining the rotation of a rigid body about a fixed axis etc. Chapter 16: Plane motion of rigid bodies: Forces and accelerations 16.1 Introduction 16.2 Equations of motion for a rigid body 16.3 Angular momentum of a rigid body in plane motion 16.4 Plane motion of a rigid body, d'Alembert's principle etc. Chapter 17: Plane motion of rigid bodies: Energy and momentum methods 17.1 Introduction 17.2 Principles of work and energy for a rigid body 17.3 Work of forces acting on a rigid body 17.4 Kinetic energy of a rigid body in plane motion etc. Chapter 18: Kinetics of rigid bodies in three dimensions 18.1 Introduction 18.2 Angular momentum of a rigid body in three dimensions 18.3 Application of the principle of impulse and momentum to the three-dimensional motion of a rigid body etc. Chapter 19: Mechanical vibrations 19.1 Introduction 19.2 Free vibrations of particles, simple harmonic motion 19.3 Simple pendulum(Approximate) 19.4 Simple pendulum(Exact solution) etc ER -