This course introduces the principles required to solve engineering mechanics problems. It addresses the modeling and analysis of static equilibrium problems with an emphasis on real-world engineering applications and problem solving.
This course introduces students to the basics of strength of materials. Topics include: loading; statically indeterminate structures; temperature and pretrain effects; shear force and bending moment; axial, shear, bearing and bending stresses; deflection of beams; and buckling of columns
This course is important for architectural engineering student to understand the principle of analysis many structural members, which used in constructions as trusses, beams, plates to study the fundamental concepts of mechanics that related to engineering problems.to introduce and understand the behavior of various engineering structure such as beams, plates, trusses under different actions
Structure fundamentals, forces analysis and distribution, mechanics of different materials, beams & columns, truss details.
The 2nd course is useful for architectural engineering student to understand the principle of analysis of many structural members which used in constructions as trusses, beams, plates etc. to study the fundamental concepts of strength of Materials that related to engineering problems. to introduce and understand the behavior of various engineering structures such as beams, plates, trusses etc. under different Loads.
Structure fundamentals of moments, Stress analysis and distribution, The ability of different materials to withstand Stresses, beams & columns, I beam and I columns, Different Cross-Sections of Beams and plates
Distribution of Marks
Andy Ruina and Rudra Pratap, Introduction to Statics and Dynamics, Oxford University Press, 2011
F. P. Beer and E. R. Johnston, Vector Mechanics for Engineers, Vol I - Statics, Vol II- Dynamics, 9th Ed, Tata McGraw Hill, 2011.
J. L. Meriam and L. G. Kraige, Engineering Mechanics, Vol I – Statics, Vol II – Dynamics, 6th Ed, John Wiley, 2008.
Basic principles: Equivalent force system, Equation of equilibrium, body diagram, Rection, Static indeterminacy
Structures: Difference between trusses, frames and beams, Assumptions followed in the analysis of structures, 2D truss, Method of joints, Method of section
Frame: Simple beam, types of loading and supports, Shear force and bending diagrams in beams,
Relation among load, Force, Shear force and bending moment.
Friction: Dry friction, Description and application of friction in wedges,
Virtual work and Energy method: Virtual displacement, principal of Virtual work
Applications of Virtual work principal to mechanics, Mechanical efficiency, work of force.
Potential energy and equilibrium, stability, Center of gravity and moment of Inertia,
First and second moment of area, Radius of gyration.
Shear force and bending moment/Diagrams, Shear force and bending moment/standard cases
Shear force and bending moment/subjected to a various load
Shear force and bending moment/standard cases
Stresses in beam/relation between B.S. and radius of column
Final Examinations – First Semester
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