Engineereing Mechanics ENS1A100007

Course content: definition of force and couple of forces; statics principles, equilibrium conditions, friction, center of mass, motion equation for particle, velocity and acceleration of particle, kinematics of rigid body, translation and rotation motion of particle, plane and resultant motion, derivative equation for particle motion, d Alambert s principle, geometry of masses, momentum and angular momentum of material system, work and kinetic energy equivalence principle, internal forces, definition of stress and strain, the Hooke s law, compression and tension of bars, torsion and bending, complex loading stress states, critical stresses, strength of circular plates loaded symmetrically and thick-walled tubes, flexural buckling, thin-walled shells loaded by internal pressure.

Learning outcomes: acquainting students with basic problems of theoretical mechanics and strength of materiale; getting skills to solving typical problems of engineering mechanics