| T | P | Internal | External | | | CET-201 | Fluid Mechanics-I | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | AMT-210 | Mathematics – III* | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | CET-202 | Rock Mechanics & Engg. | 3 | 0 | 0 | 40 | 60 | 100 | 3 | CET-203 | Strength of Materials | 3 | 2 | 0 | 40 | 60 | 100 | 4 | CET-204 | Surveying –I | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | CET-205 | Civil Engg Materials | 3 | 0 | 0 | 40 | 60 | 100 | 3 | CEP-206 | Fluid Mechanics-I Lab | 0 | 0 | 2 | 60 | 40 | 100 | 1 |
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between tissues. With an increase in volume the pressure in the synovial fluids drops forming bubbles. When the joint is stretched far enough the pressure drops so low that these bubbles burst‚ producing a popping sound. It takes half and half for the gas to dissolve back into the synovial fluids. Once gas is dissolved it is possible to pop knuckles again. Synovial fluid present in your joint acts as a lubricant. The fluid contains the gases oxygen‚ nitrogen and carbon dioxide. Habitual cracking
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• A typical surfer starts at a spot in the water where waves begin to form. They then turn towards the shore. When the surfer sees a wave‚ they paddle towards the beach along with the wave. • When water catches the surfboard‚ the surfer then stands up on the board and soars along the waves crest. • Surfing was discovered first in Hawaii • In 1821‚ surfing was banned by missionaries because they thought it was immoral to surf. • A famous Hawaain swimmer by the name of Duke Kahanamoku Waves
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2 VALVE SPECIFICATION 3 FLOW COEFFICIENT 3.1 KV coefficient 3.2 Cv coefficient 3.3 Standard test conditions 4 SIZING EQUATIONS 4.1 Sizing equations for incompressible fluids (turbulent flow) 4.2 Sizing equations for compressible fluids (turbulent flow) 4.3 Sizing equations for two-phase fluids 4.4 Sizing equations for non turbulent flow 5 PARAMETERS OF SIZING EQUATIONS 5.1 Recovery factor FL 5.2 Coefficient of incipient cavitation xFZ and coefficient of constant cavitation
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Fluid Mechanics CHE2161/MEC2404 Frictional Flow in Pipes Experiment : Friday 8.30-11.30am Conducted In : Fluid Mechanics Lab Abstract The main aim of this experiment was to show how the friction factor varies with Reynolds number by manipulating the flow rate of the fluid in a pipe. The main principle used in the experiment was the Bernoulli’s equation‚ taking major head losses into account. These major head losses were normally due to wall friction in the pipe and viscous
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SPE 167543 Wellbore Stability Management In Depleted And Low Pressure Reservoirs Fekete Paul O.‚ Dosunmu Adewale‚ Anthony Kuerunwa‚ Ekeinde Evelyn B.‚ Anyanwu Chimaroke‚ and Odagme Baridor S.‚ Dept. of Petroleum and Gas Engineering‚ University of Port Harcourt‚ Nigeria Copyright 2013‚ Society of Petroleum Engineers This paper was prepared for presentation at the Nigeria Annual International Conference and Exhibition held in Lagos‚ Nigeria‚ 30 July–1 August 2013. This paper was selected for presentation
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one to one support at meal times due to her lack of willingness to consume solids and fluids. It is extremely important to maintain good fluid intake to reduce the chance of dehydration which could contribute to increased confusion in a dementia patient. To prevent this‚ patient H has a daily fluid chart which is filled in every time fluids are consumed as a way of effectively monitoring her intake of fluids. I informed patient H it was meal time and directed her to her chair by her bedside‚
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Mechanical Cranes 2.Hydraulic Cranes 3.Pneumatic Cranes Mechanical Cranes:- These uses one or more simple machines like engine‚motor etc.to create mechanical advantage. Hydraulic Cranes:- These cranes use a hydraulic system using an incompressible fluid. Pneumatic Cranes:-These cranes use a pneumatic cylinder that impart a force by converting the potential energy of compressed gas into kinetic energy. Pneumatic cylinder Pneumatic cylinders are mechanical devices which produce force in combination
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Task 1 Q1) Explain the various principles involved with hydraulic fluids (P1) There are 4 types PASCAL’S LAW DIFFRENTIAL AREAS BRAMAH’S PRESS BERNOULL’S PRINCIPLE Pascal’s Law Pascal’s law defines the fundamental principle of power transmission by hydraulic system. The Pascal’s Law is the main principle behind all hydraulic systems. It is stated pressure is an enclosed container is transmitted equally and undiminished to all parts of the container and acts at right angles to enclosed walls
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Progress in Aerospace Sciences 57 (2013) 1–24 Contents lists available at SciVerse ScienceDirect Progress in Aerospace Sciences journal homepage: www.elsevier.com/locate/paerosci Supersonic jet and crossflow interaction: Computational modeling Ez Hassan a‚d‚ John Boles b‚ Hikaru Aono c‚ Douglas Davis d‚ Wei Shyy a‚e‚n a Department of Aerospace Engineering‚ University of Michigan‚ Ann Arbor‚ MI‚ USA Taitech‚ Inc.‚ Beavercreek‚ OH‚ USA Japan Aerospace Exploration Agency (JAXA)‚ Sagamihara
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