Course Plan: (Page 1 of 5)
Course Plan: (Page 1 of 5)
Course Plan: (Page 1 of 5)
Civil Engineering
Department :
2103
No of contact hours/week:
ASSESSMENT PLAN
No. of
At the end of this course, the student should be able to: Contact Marks
Hours
CO1: Describe the resultant of coplanar system of forces and illustrate. 5 14
CO3: Describe centroid and moment of inertia of plane figures and illustrate. 7 19
CO4: Describe the stress and strains in deformable bodies and illustrate. 11 31
Total 36 100
(Page 1 of 5) MIT/GEN/F-01/R1
End Semester/
Components Quizzes Sessional Tests
Make-up Examination
Duration 20 to 30 minutes 60 minutes 180 minutes
Weightage 20 % (4 X 5 marks) 30 % (2 X 15 Marks) 50 % (1 X 50 Marks)
Knowledge/ Recall; Understanding/
Understanding/ Comprehension;
Typology of Understanding/ Comprehension;
Application; Analysis; Synthesis;
Questions Comprehension; Application; Analysis;
Evaluation
Application Synthesis; Evaluation
Answer one randomly selected MCQ: 10 questions Answer all 5 full
question from the problem sheet (0.5 marks) questions of 10 marks
Pattern (Students can refer their class Short Answers: 5 each. Each question
notes) questions (2 marks) may have 2 to 3 parts
of 3/4/5/6/7 marks
4, 7, 10, and 13th week of
Schedule Calendared activity Calendared activity
academic calendar
Quiz 1 (L 1-7 & T 1-2 ) (CO1,2) Test 1 Comprehensive
(L 1-11 & T 1-3 ) examination covering
Quiz 2 (L 8-13 & T 3-6 ) (CO2,3) (CO1,2,3) full syllabus. Students
Topics
Covered Quiz 3 (L 14-20 & T 7-8 ) (CO4) Test 2 are expected to answer
(L 12-20 & T 4-8 ) all questions (CO1-5)
Quiz 4 (L 21-24 & T 9-12 )
(CO3,4,5)
(CO4,5)
Course Plan
Course
L. No./
Topics Outcome
T. No.
Addressed
L0 Overview of the Course CO
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L10 CENTROID – Introduction, centroid of simple figures using first moment of area 3
L11 Centroid of simple figures using first moment of area 3
L12 Moment of inertia – Introduction, MI of simple figures 3
L13 MI of simple figures 3
T4 Application Problems of L10-L12 3
T5 Application Problems of L10-L12 3
T6 Application Problems of L10-L12 3
L14 Mechanics of deformable bodies- Introduction 4
L15 Tension test on ductile and brittle material,Factor of safety,Allowable stress 4
L16 Application Problems of L14 – L15 4
L17 Expression for deformation of a tapered bar, application problems 4
L18 Shear stress - Introduction 4
L19 Poissons ratio, Bulk modulus 4
L20 Relationship between E, G and K 4
T7 Application Problems of L14 – L20 4
T8 Application Problems of L14 – L20 4
T9 Application Problems of L14 – L20 4
L21 Thin Cylinders- Introduction, application problems 4
L22 Compound bars, application problems 5
L23 Application Problems of L21 - L 22 5
T10 Application Problems of L21 - L 22 5
L24 Temperature stresses 5
T11 Application problems of L24 5
T12 Application problems of L24 5
Shear Force and Bending Moment Diagrams- Introduction
(Page 3 of 5) MIT/GEN/F-01/R1
References:
1.
SINGER F.L. ENGINEERING MECHANICS, TATA MCGRAW HILL PUBLISHING (2007),.
2. BHAVIKATTI & RAJASEKHARAPPA, , ENGINEERING MECHANICS, NEW AGE INTERNATIONAL(2006).
Date: 01-08-2018
(Signature of HOD)
(Page 4 of 5) MIT/GEN/F-01/R1
Ravindranatha L
(Page 5 of 5) MIT/GEN/F-01/R1