Week - 1 |
Introduction to the basic definition and basic concepts of mechanics, the basic principles of mechanics, Newton's laws, dimensional analysis. |
Week - 2 |
Statics of particles, force vectors, vector operations, Cartesian vectors, the collection and removal of Cartesian vectors. |
Week - 3 |
Planar equilibrium of particles, equilibrium conditions, free-body diagram, planar force systems, three dimensional force system. |
Week - 4 |
Rigid bodies, equivalent force systems, vector product, moment of a force, according to an axis of a force Moment of force Moment of the pair, a pair of resultant force-force system. |
Week - 5 |
Equilibrium of rigid bodies, two-and three-dimensional force balance system of equations. |
Week - 6 |
Types of delivery systems and support, space systems, bearings, isostatic delivery systems and support reactions. |
Week - 7 |
Carrier systems, affecting the load (force) types; carrier systems account support responses. |
Week - 8 |
Analysis of structures, structural trusses, structural truss systems solution methods, the node point method, cutting (ritter) method. |
Week - 9 |
Internal forces; carrier elements in the system creates cross-sectional effects, the normal force, shear force and bending moment, and diagrams, cross-sectional effects in systems consisting of multiple elements. |
Week - 10 |
Weight centers, centers of gravity to determine the linear and two-dimensional objects. |
Week - 11 |
Moment of inertia, moments of inertia of the fields, the radius of inertia, polar moment of inertia, parallel axis (Steiner) theorem. |
Week - 12 |
The axial normal force, stress-strain relations, the allowable stress. |
Week - 13 |
Stress analysis, the general state of stress, uniaxial strain. |
Week - 14 |
Mohr circle method in uniaxial tension, biaxial strain, plane strain. |