Results Table showing strains form grids 1 – 3 at different pressures Pressure Ɛ1‚Grid #1(μƐ) Ɛ2‚ Grid #2 (μƐ) Ɛ3‚ Grid #3 (μƐ) (Bar) Up Down Avg Up Down Avg Up Down Avg 0 0 0 0 0 29 14.5 0 -12 -6 68.95 31.5 32.5 32 79.5 95 87.25 38.5 46 42.25 137.89 65 65.5 65.25 154 166 160 97.5 103.5 100.5 206.84 98.5 97.5 98 224 231.5 227.75 154.5 161.5 158 275.79 133.5 131.5 132.5 297.5 299.5 298.5 219.5 220 219.75 344.74 166.5 166.5 166
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or true value of whatever is measured. Precision - The measure of how close a series of measurements are to one another. Matter – anything that takes up space and has mass. Standard temperature and pressure = 0° Celsius at 1 atmosphere of pressure. Atmosphere is a unit for measuring pressure Avogadro’s number = 6.02 x 1023 volume of 1 mol of any gas at STP = 22.4 L Ion- atoms or groups of atoms that have a positive or negative charge Anion- negatively charged ion Cation- positively
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consume O2 and give off CO2 during the manufacturing of ATP. (Jenkins‚ 2010) Air moves into the lungs when the air pressure inside the lungs is less that the air pressure in the atmosphere. Boyle’s law states that‚ “The difference in pressure caused by changes in lung volume force air into our lungs when we inhale and out when we exhale.” Pg.748 if volume increases‚ outside pressure must decrease. This process involves the diaphragm muscle which increases‚ during forceful inhalations expanding the
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Therefore‚ t = 0.236 in. satisfies all internal pressure conditions. Check this steel-wall thickness against the external load due to 10 feet of fill. STEP 2 EXTERNAL LOAD DESIGN A . MODIFIED IOWA FORMULA Prior to checking the anticipated horizontal deflection of the pipe‚ the designer must evaluate and determine the component parts to be used in the modified Iowa formula. 1. DEAD LOAD‚ We (Check for the maximum fill height.) Fill Height: H = 10 ft Soil Unit Weight: w = 120 pcf Pipe
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THERMAL PHYSICS LABORATORY: INVESTIGATION OF ADIABATIC PROCESSES IN AIR This experiment has two parts. In the first‚ you will use a dynamic method to measure the ratio of the specific heat capacities of air and‚ in the second‚ you will investigate the behaviour of gas undergoing an expansion that is approximately adiabatic and ‘partially reversible’ – somewhere between the two limits of a completely irreversible (free) and perfectly reversible expansion. The air can be considered an ideal gas
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Chemistry 222 – Lab 4 Decomposition of Hydrogen Peroxide Abstract: This lab was designed to observe the decomposition of hydrogen peroxide into it oxygen and water. The equation for this reaction is H202 H2O + +1/2O2 thus by measuring volume and pressure of O2 generated the amount of O2 generated can be calculated which in turn can be utilized to determine the concentration of water already in the H2O2 solution. The results determined that 3.02% of the solution is composed of H2O2. Introduction:
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Pneumatic Conveying Systems Course No: M05-010 Credit: 5 PDH A. Bhatia Continuing Education and Development‚ Inc. 9 Greyridge Farm Court Stony Point‚ NY 10980 P: (877) 322-5800 F: (877) 322-4774 info@cedengineering.com PNEUMATIC CONVEYING SYSTEMS A pneumatic conveying system is a process by which bulk materials of almost any type are transferred or injected using a gas flow as the conveying medium from one or more sources to one or more destinations. Air is the most commonly used gas
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changing the pressure inside of the tube)‚ so that we could transport the remaining water to a graduated cylinder. When doing this‚ it was very important that the water level inside of the tube was equal to that of the surrounding water in the bucket‚ because that ensured that since the water pressure in the tube was the same as that of the surrounding water‚ the pressure of the gas would be the same as that of the surrounding air. Thus‚ we recorded the gas pressure to be the same as the pressure in the
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gas when the pressure‚ volume‚ and temperature are 2. known. The ideal gas law is described by the formula 3 where the variable 2 3. represents the number of moles of gas and the letter R is the 4 . R is equal to 5 . 5. A gas that conforms to the gas laws at all conditions of temperature and pressure is an 6 7 6. gas 7. behaves ideally at all temperatures and pressures. Deviations 8. from ideal behavior at high pressures can be explained
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Hoo Sze Yen Form 4 Experiments Physics SPM 2008 CHAPTER 1: INTRODUCTION TO PHYSICS 1.1 PENDULUM Hypothesis: The longer the length of a simple pendulum‚ the longer the period of oscillation. Aim of the experiment: To investigate how the period of a simple pendulum varies with its length. Variables: Manipulated: The length of the pendulum‚ l Responding: The period of the pendulum‚ T Constant: The mass of the pendulum bob‚ gravitational acceleration Apparatus/Materials: Pendulum bob‚ length
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