Fluid Mechanics Lesson Plan Duration: 15 weeks (from January, 2018 to April, 2018) Fluid Properties and Fluid Statics: Concept of fluid and flow
LESSON PLAN COURSE TITLE: Fluid Mechanics and Hydraulics COURSE CODE: CE227 DESCRIBE the concepts related to fluid statics, kinematics, dynamics
01 1 2 Description of fluid properties like Density, Specific weight, specific gravity, specific volume and solve simple problems
LESSON PLAN Semester-4th Subject-Fluid mechanics Branch-Mechanical Engineering Theory Name of the Faculty- Duryodhan Das Academic Session – 2019-20
23 août 2017 · Instruction Schedule I Semester: 12-06-2017 to 11-10-2017 LESSON PLANS are prepared and Mechanics of Fluids and Hydraulic Machines
LESSON PLAN SUBJECT: INTRODUCTION TO FLUID MECHANICS CODE: CE(ES)401 YEAR: 2nd SEMESTER: 4TH; CONTACT HRS PER WEEK- 2; CREDIT POINTS: 2
LESSON PLAN DEPARTMENT OF Fluid Mechanics BRANCH : CHEMICAL SEMESTER flow measurement, fluid flow through pipe lines, fluidized bed etc
BACKGROUND INFORMATION: Fluid mechanics is the study of how fluids react to forces Can you think of any examples of engineering
Lesson Plan - CE1006 - Fluid Mechanics Academic year 2015-16 (Semester commencing in June 2015) Instructional objectives
107093_7Lesson_plan_for_fluid_mechanics_4th_sem_2_converted.pdf
LESSON PLAN-4TH SEMESTER (2019-20)
Subject- Fluid mechanics
Name of the Faculty- Sagar kumar Mohapatra
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(IF ANY) decem ber
Unit-1 Properties of Fluid 08
1.1 Define fluid 01 1.2 Description of fluid properties like Density, Specific weight, specific gravity, specific volume and solve simple problems. 03 1.3 Definitions and Units of Dynamic viscosity, kinematic viscosity, surface tension Capillary phenomenon 04 januar y
Unit-2 Fluid Pressure and its measurements 08
2.1 Definitions and units of fluid pressure, pressure intensity and pressure head. 02 2.2 01 2.3 Concept of atmospheric pressure, gauge pressure, vacuum pressure and absolute pressure 01 2.4 Pressure measuring instruments Manometers (Simple and
Differential)
02 2.4.1 Bourdon tube pressure gauge(Simple Numerical) 01 2.5 Solve simple problems on Manometer. 01 januar y
Unit-3 Hydrostatics 08
3.1 Definition of hydrostatic pressure 01 3.2 Total pressure and centre of pressure on immersed bodies(Horizontal and Vertical Bodies) 02 3.3 Solve Simple problems. 02 3.4 meta centric height (Definition only) 02 3.5 Concept of floatation 01 februa ry
Unit-4 Kinematics of Flow 08
4.1 Types of fluid flow 01 4.2 Continuity equation(Statement and proof for one dimensional flow) 02 4.3 theorem(Venturimeter, pitot tube) 03 4.4 Solve simple problems 02 februa ry
Unit-5 Orifices, notches & weirs 08
5.1 Define orifice 01 5.2 Flow through orifice 01 5.3 Orifices coefficient & the relation between the orifice coefficients 01 5.4 Classifications of notches & weirs 01 5.5 Discharge over a rectangular notch or weir 01 5.6 Discharge over a triangular notch or weir 01 5.7 Simple problems on above 02 march Unit-6 Flow through pipe 10 6.1 Definition of pipe. 01 6.2 Loss of energy in pipes. 02 6.3 (Expression only) 03 6.4 03 6.5 Hydraulic gradient and total gradient line 01 march Unit-7 Impact of jets 10 7.1 Impact of jet on fixed and moving vertical flat plates 03 7.2 Derivation of work done on series of vanes and condition for maximum efficiency. 02 7.3 Impact of jet on moving curved vanes, illustration using velocity triangles, derivation of work done, efficiency. 05