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b. Finney, R.L., Weir, M.D., and Giordano, F.R., a. Munson, B.R., Young, D.F. and Okiishi, T.H.,
2008, Thomas’s Calculus, 11th Ed., Pearson. 2006, Fundamentals of Fluid Mechanics, 5 Ed.,
th
c. Anton, H., 2009, Calculus Multivariable, 9th Ed., John Wiley & Sons, Inc, Asia.
John Wiley. b. Som, S.K., and Biswas, G., 2004, Introduction
d. Smith, R.T., and Minton, R.B., 2007, to Fluid Mechanics and Fluid Machines, 2 Ed.,
nd
Multivariable Calculus, McGraw-Hill. Tata McGraw-Hill, New Delhi.
e. Steward, J., 2007, Calculus – Concepts And c. Douglas, J.F., Gasiorek J.M. and Swaffield,
Contexts, Brooks/Cole, 2nd Ed. J.A., 2001, Fluid Mechanics, 4 Ed., Prentice
th
f. Stroud, K.A., 2007, Engineering Mathematics, Hall, Spain.
6th Ed, Palgrave Macmillan d. Cengel, Y.A. and Cimbala, J.M., 2006, Fluid
Mechanics: Fundamentals and Applications,
International Edition, McGraw-Hill, Singapore.
DMCF 2213 FLUID MECHANICS I e. Streeter, V.L. and Wylie, E.B., 1983, Fluid
LEARNING OUTCOMES Mechanics, First SI Metric Ed., McGraw-Hill,
At the end of the course, students should be able to: Singapore.
LO1 Use fluid and its properties equation in the
context of fluid mechanics application.
LO2 Apply fluid mechanics equations in solving DMCS 3333 SOLIDS MECHANICS II
fluid statics and dynamics problems. LEARNING OUTCOMES
LO3 Respond to the procedure that has been At the end of this course, students should be able to:
given in laboratory as a team. LO1 Use transformation of stress and strain in
LO4 Interpret the experimental data accordingly determining the principal stresses, principal
and to report the results in the appropriate strains and planes using formulation
scientific manner. (analytical) and Mohr’s circle methods.
SYNOPSIS LO2 Analyze stresses in thin and thick cylinder
This course introduces the basic properties of fluids. pressure vessels and stresses in shrink-fit
It covers the definition to the pressure, heads, the problems.
derivation of hydrostatic equation and its LO3 Apply yield criteria for ductile and brittle
application in pressure measurement, static forces materials to avoid failure of the structure
analysis on immersed surface and also buoyancy under plane stress condition caused by
analysis. The course also introduces fluid dynamics, yielding.
fluid flow analysis, derivation of flow equations, the LO4 Determine strain energy due to axial,
application of the energy equation, Bernouli bending and torsional loadings and define
equation in the calculation of flow velocity, structures’ deformations (displacements and
discharge, heat lost in piping systems, dimensional angle of twist) under such loadings.
analysis and also its application. LO5 Evaluate instability, strength and buckling
REFERENCES behaviour of struts or slender structures
courseed to compressive axial load with
various end-conditions.
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