CE1006 Lesson Plan
CE1006 Lesson Plan
CE1006 Lesson Plan
Academic year 2015‐16
(Semester commencing in June 2015)
Instructional Instructional objectives (IO)
objectives
number
1 To learn the importance, application and inter‐relationship of various properties of fluid like
mass density, viscosity, and surface tension.
2 To determine the forces on plane and curved surfaces in a fluid at rest and the concepts of
buoyancy and metacentre.
3 To study the properties of a moving fluid like velocity and acceleration, and the forces on fluid
through the continuity equation, Euler’s and Bernoulli’s equations.
4 To study laminar and turbulent flow in pipes, major and minor losses in pipes.
5 To study the fundamentals of dimensional analysis and model studies.
Student outcomes
Student outcome Student outcome (SO)
number
a an ability to apply knowledge of mathematics, science, and engineering
e an ability to identify, formulate, and solve engineering problems
k an ability to use the techniques, skills, and modern engineering tools necessary for engineering
practice
Mapping of Instructional Objectives (IOs) with Student Outcomes (SOs)
CE1006 ‐ Fluid Mechanics
Student Outcomes
Instructional objectives
a e k
1.To learn the importance, application and inter‐relationship of various properties of fluid like X
mass density, viscosity, and surface tension.
2.To determine the forces on plane and curved surfaces in a fluid at rest and the concepts of X X
buoyancy and metacentre.
3.To study the properties of a moving fluid like velocity and acceleration, and the forces on X X
fluid through the continuity equation, Euler’s and Bernoulli’s equations.
4.To study laminar and turbulent flow in pipes, major and minor losses in pipes. X X X
5.To study the fundamentals of dimensional analysis and model studies. X X
Lecture Hours Tutorial Hours Practical Credits
(L) Hours
CE1006 Fluid Mechanics
(T) (P) (C)
3 0 0 3
Prerequisites
Nil
Lesson Plan – 2015‐16 Revision: 0 dated 29/06/2015
Lecture Topic No. of IOs SO Reference
No. hours
1. Introduction 1 1,2,3,4,5 a,e,k 1,2,3,4
UNIT‐I FLUID PROPERTIES
2. Importance and application of fluid mechanics 1 1 a 1,4
3. Fluid properties – Density – Viscosity 1 1 a 1,3
4. Surface Tension 1 1 a 1,3
5. Capillarity 1 1 a 1,3
6. Vapor Pressure ‐ Compressibility and Bulk Modulus 1 1 a 1,3
Cycle Test –I
UNIT‐II FLUID STATICS
7. Pascal’ law – Law of Hydrostatics 1 2 a 1,4
8. Forces on vertical plane surface 3 2 a,e 1,2,3
9. Forces on horizontal plane surface 1 2 a,e 1,2,3
10. Forces on inclined plane surface 2 2 a,e 1,2,3
11. Buoyancy – Metacenter 1 2 a,e 1,3
12. Stability of floating and submerged bodies 1 2 a 1,4
Cycle Test – II
CE1006-LP-15-16
Lecture Topic No. of IOs SO Reference
No. hours
UNIT‐III FLUID KINEMATICS AND FLUID DYNAMICS
13. Velocity and Acceleration, Classification of flows 2 3 a 1,4
14. Continuity equation 1 3 a,e 1,3
15. Stream, Streak and Path line 1 3 a 1,4
16. Potential function and Stream function 2 3 a,e 1,2,3
17. Flow net analysis, Control volume 2 3 a 1,4
18. Euler and Bernoulli’s equation 2 3 a,e 1,2,3
19. Free and forced vortex motion 1 3 a 1,4
UNIT‐IV FLOW THROUGH PIPES
20. Definition of boundary layer – Laminar and turbulent 1 4 a 1,4
flows
21. Reynold’s experiment 1 4 a 1,4
22. Darcy‐Weisbach equation – Moody diagram – Friction 1 4 a 1,4
factor
23. Major and Minor losses 2 4 a,e 1,2,3
24. HGL and TEL 2 4 a,e,k 1,2,3
25. Pipes in series and parallel – Equivalent pipe 2 4 a,e 1,2,3
26. Pipe network 1 4 a 1,4
UNIT‐V DIMENSIONAL AND MODEL ANALYSIS
27. Units and Dimensions 1 5 a 1
28. Dimensional homogeneity 1 5 a 1
29. Rayleigh’s method 2 5 a,k 1,3
30. Buckingham’s Pi theorem 2 5 a,k 1,3
31. Hydraulic similitude 2 5 a 1
32. Model studies 1 5 a 1
Model Examination
Total hours 45
The faculty members handling the course may conduct surprise test according to their convenience. However a
question paper in hard copy as well as key shall be made available for the surprise test. The process shall be same
as that of cycle tests.
TEXT BOOKS
1. Modi .P.N and.Seth .S.M, “Hydraulics and Fluid Mechanics”, Standard Book House, 2001.
2. Rajput .R.K, “Fluid Mechanics and Hydraulic Machines”, S.Chand and Company Ltd.,2005.
REFERENCE BOOKS
3. Bansal .R.K, “Fluid Mechanics and Hydraulic Machines”, Laxmi Publications, Ninth Edition, 2010.
4. Kumar .K.L, “Engineering Fluid Mechanics”, Eurasia Publishing House, 2002.
Course Coordinator
Dr.R.Sathyanathan
Faculty handling the courses
Sl. Faculty name
No.
1 Dr.G.Baskar
2 Dr.R.Sathyanathan
3 Mr.Shaik Niyazuddin Guntakal
4 Mrs.N.A.Sreemanthra Rupini
5 Mrs.D.Jaishree
6 Ms.A.Aarthy
7 Ms.Golda Percy
8 Mr.G.Prem Kumar
CE1006-LP-15-16