RAMON MAGSAYSAY TECHNOLOGICAL UNIVERSITY COLLEGE OF ENGINEERING AND ARCHITECHTURE (IBA‚ MAIN CAMPUS) IN PARTIAL FULFILLMENT IN THE COURSE ME 423 “REFRIGERATION SYSTEMS” ICE PLANT DESIGN SUBMITTED BY: CLARO P. CABAL BSME V SUBMITTED TO: ENGR. ELVIE F. POBLETE (INSTRUCTOR) MARCH 2014 TABLE OF CONTENTS INTRODUCTION---------------------------------------------------------------------------------------------------------1 IMPORTANT TERMS AND FACTORS--------------------------------------------------------------------------------2
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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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1.2 1.3 1.4 FLUIDS MECHANICS AND FLUID PROPERTIES Objectives of this section Fluids Causes of Viscosity in Fluids Properties of Fluids 10 10 10 15 16 2. 2.1 2.2 2.3 2.4 FORCES IN STATIC FLUIDS Fluids statics Pressure Pressure Measurement By Manometer Forces on Submerged Surfaces in Static Fluids 19 19 20 28 33 CIVE 1400: Fluid Mechanics Contents and Introduction 1 3. 3.1 3.2 3.3 3.4 3.5 3.6 3.7 FLUID DYNAMICS Uniform Flow‚ Steady Flow Flow rate. Continuity The
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Objective: the purpose of this lab is to investigate the law of conservation of energy. This can be achieved by measuring both potential and kinetic energy through the experiment conducted. Back ground: Kinetic energy is said to be the energy of motion. Kinetic energy can be defined through this equation: KE=12mv2 (equation 1) Where m is the mass of the object in motion‚ and v is the velocity of the moving object. Potential energy is the
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physics offers us? The answer is no. Roller coasters are driven by physics; it mobilizes and gives its riders amusement through forces such as inertia‚ gravitation‚ and centripetal forces and utilizes different types of energies such as potential and kinetic energy. Physics is what makes roller coasters safe and effective. It is not only the high speed of the trains of a roller coaster that makes the ride so thrilling but the acceleration of the train and the occasional feeling of weightlessness. At
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Rebecca Nov. 2013 Kyle‚ Mat‚ Alex Lab M7 Conservation of Momentum Abstract: This experiment involved the use of gliders on an air track which nearly isolates the colliding system from external forces to create low friction totally elastic and inelastic collisions. Seven different collisions were made‚ four elastic and three inelastic. The collisions consisted of only two gliders with varying masses and speeds. Each glider cart was equipped with a flag‚ and its passage through a photogate
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Energy A. Kinetic Energy 1. Kinetic energy is associated with an object in motion. 2. Kinetic energy depends on speed and mass Kinetic Energy = ½mv2 3. Kinetic energy is a scalar and will use Joules as its standard unit. 4. It takes some work to change an object’s kinetic energy either by changing the velocity or changing the mass. 5. This fact leads us to the Work-Kinetic Energy Theorem
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elevator moves up with a constant speed of 2.0 m/s2 . (b) The elevator has a constant upward acceleration of 2.0 m/s2 . (c) The elevator has a constant downward acceleration of 2.0 m/s2 . (d) The cable snaps and the elevator falls freely (ignore friction and the bloody end!). SOLUTION: The weight of the person depends on Mass and g‚ therefore: W = M g = (70.0 kg) 9.80 m/s2 = 686 N downward in all cases (a)-(d). Using the free-body-diagram for the person is shown to the right‚ We solve for N (which
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subtracting the kinetic energy at the end of the ramp * 10. calculate the efficiency of the system * 11. calculate the force of friction between the block and the ramp* 12. calculate the coefficient of kinetic friction between the block and the ramp * jacob what’s the formula for finding Ff? HALLO ? JACOB pleaseeee *see equations page Observations: do the damn graphs Calculations: Energy Lost Efficiency force of friction coefficient of kinetic friction Conclusion: restate the calculations
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Old Dominion University PHYS 111N Experiment 10 Harmonic Motion Submitted by: Lab Partner: Lab Instructor: Introduction In this experiment we will investigate the simple harmonic motion of an object suspended by a spring that oscillates on a vertical plane and in a separate experiment was examine oscillations on a horizontal plane. In simple harmonic motion‚ the displacement from the equilibrium position is directly proportional to the force. The force generated is always directed toward
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