ENT 310 Fluid Mechanics Midterm #1 – Open Book and Notes Name _______________________ 1. (5 pts) The maximum pressure that can be developed for a certain fluid power cylinder is 50.0 MPa. Compute the force it can exert if its piston diameter is 100 mm. 2. (5 pts) Calculate the weight (in Newtons) of 100 liters of fuel oil if it has a mass of 900 Kg. 3. (5 pts) The fuel tank of a truck holds 0.20 cubic meters. If it is full of gasoline having a specific gravity of 0.68‚ calculate the weight
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Chapter 6 Study Guide Fluids‚ Electrolytes‚ and Acid-Base balance Compartmental Distribution of Body Fluids 2/3 of the body’s water is contained in the ICF‚ the remaining 1/3 is in the ECF ICF fluid volume is regulated by proteins and other non-diffusible organic compounds in cells Interstitial fluids (IF) act as a transport vehicle for gasses‚ nutrients‚ wastes‚ and other materials 14%-16% of body weight Reservoir for maintenance of vascular volume; used during hemorrhage
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SUMMER INTERNSHIP PROJECT REPORT ON SPIN COATER SUBMITTED TO Moser Baer India Pvt. Ltd. (R&D Department) Under the supervision of: Mr. Rajgopal S. (AGM‚ Research & Development‚ Moser Baer India Pvt. Ltd.) SUBMITTED BY Harsha Sud Third Year (V semester) Roll Number : 39/EC/08 Netaji Subhas Institute of Technology‚ New Delhi TABLE OF CONTENTS PREFACE 4 ACKNOWLEDGEMENT 4 ABSTRACT 5 1. ABOUT MOSER BAER STORAGE MEDIA 6 1.1. Overview 8 1
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I. Lubricants selection and Application A.Viscosity Most important property of any lubricant is viscosity. A common mistake when selecting a grease is to confuse the grease consistency with the base oil viscosity. Because the majority of grease-lubricated applications are element bearings‚ one should consider viscosity selection for those applications. While most would not use an EP 220 gear oil for an oil-lubricated electric motor bearing‚ many people will use a grease containing that same oil
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MANUAL PIPELINE ENGINEERING DEP 31.40.00.10-Gen. November 1993 DESIGN AND ENGINEERING PRACTICE USED BY COMPANIES OF THE ROYAL DUTCH/SHELL GROUP This document is confidential. Neither the whole nor any part of this document may be disclosed to any third party without the prior written consent of Shell Internationale Petroleum Maatschappij B.V.‚ The Hague‚ the Netherlands. The copyright of this document is vested in Shell Internationale Petroleum Maatschappij B.V.‚ The Hague‚ the Netherlands
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CIVL 4046 Fluid Mechanics Tutorial No. 1 2.15 A team is designing a helium-filled balloon that will fly to an altitude of 24‚000 m. As the balloon ascends‚ the upward force (buoyant force) will need to exceed the total weight. Thus‚ weight is critical. Estimate the weight (in newtons) of the helium inside the balloon. The balloon is inflated at a site where the atmospheric pressure is 0.89 bar and the temperature is 22°C. When inflated prior to launch‚ the balloon is spherical (radius 1.3 m) and
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Title: Using Compartmental models to predict hospital bed occupancy Abstract The use of acute care hospitals is a significant factor in the increasing cost of health care in many developed countries. The modelling of hospital beds should lead to better decision-making in relation to this expensive resource. The average length of stay is inappropriate for such modelling. Millard and others have shown that compartmental models can be used for bed modelling. These models are plausible and easily
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Abstract Cheese rheology has been an ever expanding field in recent times. It is concerned primarily with the deformation and flow of cheese under certain conditions. It is essential that we understand the rheology of cheese for ample reasons. It helps understand better the structure of cheese as well as to determine quantitievely the attributes demanded by the consumers. Fundamental tests have become more significant than empirical and imitation tests for the study of the rheological behavior
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It is essentially fluid friction and transforms kinetic energy of motion into heat energy‚ just as friction (“the force between surfaces in contact that resists their relative tangential motion”) does between two solid bodies. All fluids express some amount of viscosity. An ideal fluid has no internal friction between the molecules‚ meaning that it is not viscous. The reciprocal of viscosity is fluidity (“the physical property of a substance that enables it to flow.”)2 Thus‚ fluids that are high in
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Intravenous Fluid Selection LEARNING OBJECTIVES By the end of this chapter‚ you should be able to: Describe and differentiate colloid and crystalloid IV fluids Understand osmosis as it pertains to water movement with IV therapy Define tonicity and the actions of isotonic‚ hypotonic‚ and hypertonic crystalloids in the body Identify the three most common IV solutions used in the prehospital setting‚ and classify them as isotonic‚ hypotonic‚ or hypertonic Describe how an IV fluid is packaged and
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