25++ ---25++ -25 25 100 --50 -----50 ---50 -50 --100 Total 125 100 50 150 125 150 25 25 750 Engineering Mathematics – III* Manufacturing 202041 Process-I Computer Aided 202042 Machine Drawing* 202043 Thermodynamics* 202044 Material Science 202045 Fluid Mechanics Workshop Practice 202046 II 202047 Soft Skills Total of Semester – I 207002 + Under Oral head‚ examination should be based on term work completed during practical and theory syllabus ++ Term work marks should be based on term work completed
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References: Online Resources All Star‚ 2011 Conjecture Cooperation‚ 2011. Winglet. [online] Available at: < http://www.wisegeek.com/what-is-a-winglet.htm Efunda‚ 2011. Fluids Overview. [online] Available at: < http://www.efunda.com/formulae/fluids/overview.cfm NASA‚ 2010. Four forces on an airplane. [online] Available at: <http://www.grc.nasa.gov/WWW/k-12/airplane/forces.html> [Accessed 5 November 2013]. Thinkquest‚ 2011. Bernoulli ’s Principle. [online]
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steady flow rates. The apparatus used is Bernoulli’s Theorem Demonstration Apparatus‚ F1-15. In this experiment‚ the pressure difference taken is from h1- h5. The time to collect 3 L water in the tank was determined. Lastly the flow rate‚ velocity‚ dynamic head‚ and total head were calculated using the readings we got from the experiment and from the data given for both convergent and divergent flow. Based on the results taken‚ it has been analysed that the velocity of convergent flow is increasing
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how the overall system will behave in different configurations. Introduction: The design project‚ time restraints forced the Chainless Challenge team to design and build their competition bicycles without acquiring a good understanding of the dynamic nature of the system. It usually includes the quality‚ cost‚ and performance of the existing technologies. It is desired that a human powered vehicle be designed that does not utilize a direct chain and sprocket system. Replacing this power train
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Supervisor: Prof. Dr. -Ing. habil. Kai Sundmacher Faculty of Process Systems Engineering Otto-von-Guericke University‚ Magdeburg‚ Germany and Max-Planck Institute for Dynamics of Complex Technical Systems Magdeburg‚ Germany October 2010 ACKNOWLEDGEMENTS I would like to express my gratitude to Max Planck Institute for dynamics of complex technical systems and Otto-von-Guericke University-Magdeburg for providing financial support and facilities for this project. I wish to thank my thesis adviser
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open end pointing directly towards the fluid flow. As the fluid flows in the tube‚ it becomes stagnant since there is no direct opening at the other end for it to exit from. As the inert fluid rises‚ it creates a pressure of its own. This pressure is equivalent to the dynamic pressure‚ which can be seen as the kinetic energy of the fluid per unit weight. F.X. Pitot originally used this device to analyze the pressure created by the stagnating fluid at the other end of the tube. He did this
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University of Trinidad & Tobago S.F.T.I Campus Lab: Chemical Kinetics Name: Christopher Boodram Aketta Wylie Simeon Mohammed #110004795 Salomon Samaroo #111006223 Program: Chemical Engineering Technology * Cohort: 11 * Course: Physical Chemistry and Thermodynamics * Course Code: PCTH210D * Instructor: Title : Centrifugal Compressor Introduction: The equipment comprises of a 7-stage centrifugal compressor
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rates and both static andtotal pressure heads in a rigid convergent/divergent tube of known geometry for a range of steady flow rates. The Bernoulli’s theorem ( Bernoulli’s t heorem‚ 2011) relates the pressure‚velocity‚ and elevation in a moving fluid (liquid or gas)‚ the compressibility and viscosity(internal friction)of which are negligible and the flow of which is steady‚ or laminar. In order to demonstrate the Bernoulli’s theorem ‚ the F1-15 Bernoulli’s Apparatus Test Equipment isused in
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equations commonly used in fluid mechanics: the Bernoulli equation and the energy equation. The Bernoulli equation is concerned with the conservation of kinetic‚ potential‚ and flow energies of a fluid stream‚ and their conversion to each other in regions of flow where net viscous forces are negligible‚ and where other restrictive conditions apply. The energy equation is a statement of the conservation of energy principle and is applicable under all conditions. In fluid mechanics‚ it is found to
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Dr. Hullender research interests include machine vibration and stress analysis‚ hydraulic pneumatic and mechanical systems design and analysis‚ compressible and incompressible fluid dynamics‚ modeling and computer simulation‚ and analysis of random and stochastic processes. Because of his expertise in so many areas‚ Dr. Hullender is frequently called on by diverse industries to be a consultant. This has resulted in him studying and improving the performance of pile drivers‚ amusement rides‚ fork
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