3013: Theory of Structures I KL Diploma Syllabus for Civil 3rd Sem 2015 Revision SITTTR

Theory of Structures I detailed syllabus for Civil Engineering (Civil) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the Civil students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Civil Engineering 3rd Sem scheme and its subjects, do visit Civil 3rd Sem 2015 revision scheme. The detailed syllabus of theory of structures i is as follows.

Course Outcomes:

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SPECIFIC OUTCOME

MODULE – I

1. Understand Moment of a force
   1. Identify the various types of forces
   2. State the principle of moments
   3. Calculate the Moment of forces like point load, U.D load, U.V load
   4. Calculate the support reactions in a simply supported beam and over hanging Beam
2. Understand the Geometrical properties of sections
   1. Define Centroid, and centre of gravity
   2. Locate the centroid of rectangle , triangle, circle and semi-circle
   3. Locate the center of gravity of cylinder, sphere, prism, pyramid, cone and Hemisphere
   4. Locate the centroid of regular and compound plane figures
   5. Define moment of inertia, polar moment of inertia, and radius of gyration
   6. State the parallel axis theorem and perpendicular axis theorem
   7. Determine the moment of inertia of simple and built-up sections using parallel axis theorem
   8. Determine the radius of gyration of plane sections.
   9. Deduce the Polar moment of inertia of solid and hollow circular shaft using Perpendicular axis theorem.

MODULE – II

1. Apply the mechanical properties of section
   1. Define the mechanical properties of materials like elasticity, stiffness, plasticity, Toughness, hardness, brittleness, ductility, malleability
   2. Define stresses and strain
   3. Differentiate between various types of stresses and strains
   4. State Hooke’s law
   5. Calculate stresses and strains due to static loads
   6. Draw the stress strain curve for mild steel
   7. Determine the stresses in materials due to change in temperature
   8. Define lateral strain, poisson’s ratio, volumetric strain, bulk modulus and modulus of rigidity
   9. State the relationship between elastic constants
2. Understand the concept of strain energy
   1. Define resilience, proof resilience and modulus of resilience
   2. Calculate the stress, strain and strain energy of materials due to gradually Applied load, suddenly applied load and impact load.

MODULE – III

1. Analyze the effects of loading (SF and BM) on beams.
   1. Define the terms ‘Shear force’ and ‘Bending moment’.
   2. Draw the SFD and BMD for cantilever, simply supported and overhanging beams With Concentrated, U.D and uniformly varying loads by analytical method
   3. State the relationship between load, SF and BM in solving problems
2. Analyse the effects of pure torsion on solid and hollow circular shaft
   1. .State the assumptions in pure torsion
   2. Derive torsion equation
   3. Compute the maximum shear stress due to torsion.
   4. Calculate the diameter of the shaft to transmit a particular power for a given permissible Shear Stress and angle of twist
3. Understand the stresses in thin cylindrical shells.
   1. Define the circumferential and longitudinal stresses.
   2. calculate the circumferential and longitudinal stresses.
   3. Calculate the change in volume of thin cylinders due to internal pressure.

MODULE – IV

1. Apply the theory of simple bending.
   1. List the assumptions in the theory of simple bending.
   2. Derive the simple bending equation
   3. Explain the terms Neutral Axis, moment of resistance and section modulus .
   4. Locate the neutral axis and calculate moment of resistance of symmetrical simple And compound sections
   5. Derive the formula for shear stress at the section of a loaded beam
   6. Draw the shear stress distribution diagram along the section of a rectangular, symmetrical I section. .

MODULE – I

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MODULE – II Mechanical properties of materials

Elasticity, stiffness, plasticity, toughness, brittleness, ductility, Malleability and hardness. Simple stresses and strains – types of stresses – Elasticity – Hook’s law – Young’s modulus – stresses and strains in uniform sections of same and composite materials like steel, aluminum and copper. Tensile test on ductile material (mild steel bar) and stress strain curve – limit of Proportionality, elastic limit, yield point – ultimate stress – breaking stress – working stress and factor of safety. Temperature stresses – elongation and contraction due to temperature change -when deformation is fully or partially prevented – temperature stress in composite sections. Linear strain and lateral strain – Poisson’s ratio- volumetric strain — Bulk modulus – modulus of rigidity – relationship between Elastic constants (No proof) – simple problems. Strain energy Resilience- proof resilience – modulus of resilience – stress and strain when load is applied gradually, Suddenly and with impact.

MODULE – III Beams and bending

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MODULE – IV Theory of simple Bending

Theory of simple bending, Explain the terms ‘Neutral axis’, ‘moment of resistance’ and ‘section modules’. Assumptions in simple bending, derivation of the equation of simple bending. Apply the theory of simple bending to simple and compound sections. Calculate stress, section modulus and moment of resistance. Calculate the shear stress and draw the shear stress distribution diagram for rectangular and I Sections.

Reference Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
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For detailed syllabus of all other subjects of Civil Engineering, 2015 revision curriculum do visit Civil 3rd Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.