CH-5 DIRECT AND BENDING STRESSES | NUMERICAL 7 (HOLLOW CIRCULAR SECTION) | STRENGTH OF MATERIALS |

Unit - V Direct and Bending Stresses 5.1 Introduction to direct and eccentric loads, Eccentricity about one principal axis, nature of stresses. 5.2 Maximum and minimum stresses, resultant stress distribution diagram. Condition for 'No tension' condition(Problems on Column subjected to Eccentric load about one axis only.) 5.3 Limit of eccentricity, core of section for circular cross sections, middle third rule for rectangular section. 5.4 Introduction to compression members, effective length, radius of gyration, slenderness ratio, type of end conditions for columns. 5.5 Buckling (or Crippling) load for columns by Euler's Formula & Rankine's Formula with meaning of each term in it.(No numericals.) | STRENGTH OF MATERIALS | SOM | CIVILPOLY | AE3K / AL3K / CE3K / CR3K / CS3K / LE3K / ME3K / PG3K | MSBTE | 313308 | Automobile Engineering / Agricultural Engineering / Civil Engineering / Civil & Rural Engineering / Construction Technology/ Civil & Environmental Engineering/ Mechanical Engineering/ Production Engineering/ Syllabus Unit 1 - Moment of Inertia Unit 2 - Simple Stresses, Strains & Elastic Constants Unit 3 - Shear Force & Bending Moment Unit 4 - Bending and Shear Stresses in beams Unit 5 - Direct and Bending Stresses _________ diploma strength of materials how to prepare som how to prepare strength of materials Strength of materials in civil engineering diploma polytechnic shorts msbte msbte exam som diploma third semester som youtube short strength of materials diploma strength of materials diploma mechanical engineering strength of materials shorts how to study som how to study strength of materials som 3rd sem som 3rd sem civil engineering som 3rd semester mechanical engineering som 3rd semester som sem 3 som diploma 3rd sem som polytechnic 3rd semester Unit - IV Bending and Shear Stresses in beams 4.1 Theory of pure bending, assumptions in pure bending, Concept of Neutral Axis and section modulus. 4.2 Flexural Equation (without derivation) with meaning of each term used in equation, bending stresses and their nature, bending stress distribution diagram. 4.3 Bending stress variation diagram across depth of given cross section for cantilever and simply supported beams for symmetrical sections only. 4.4 Shear stress equation (without derivation), meaning of each term used in equation, relation between maximum and average shear stress for square, rectangular and circular section (numerical), shear stress distribution diagram. 4.5 Shear stress distribution diagram for square, rectangular, circle, hollow square, hollow rectangular, hollow circle, T- section & symmetrical I- section only. (no numericals) 4.6 Use of shear stress equation for determination of shear stresses in hollow rectangular section. som civil engineering 3rd semester in hindi strength of materials diploma 3rd sem strength of materials diploma 3rd semester mechanics of structure in civil engineering 3rd semester diploma Like and Subscribe for more content #som,#civilpoly,#CIVILPOLY,#DIPLOMAPOLY,#strengthofmaterial,#civilpolytechnic,#CESECONDYEAR,#CE2ndyear,#CE3k,#msbte,#msbte #nagpur,#pune,#maharastra,#mumbai,#sambhajinagar,#backlogmos, #backlogexam, #som numerical, #ce3K, #poly, #polytechnic, #mos numerical, #numericals , #numericals on som, #ce3kpoly #civil poly #amravati #chandrapur #balaghat #ramtek #polytechnicboardexam #polytechnic_2024_ki_taiyari #polytechnicmission2024 #polytechnic_important_question #polytechnic_news_today #polytechnic_ki_taiyari_kaise_kre #msbte_winter23 #diploma #diploma_civil #civil_poly #civil_best_tutorials #diploma_classes, #diploma_msbte, #strength of materials civil engineering numericals #civilengineering, #important questions for strength of materials, #strength of materials civil engineering diploma, #strength of materials mechanical engineering, #strength of materials diploma 3rd semester, #som civil engineering 3rd semester chapter 1 CIVILPOLY Easy way to learn SOM