Wakeboarding Wakeboarding was invented by a San Diego surfer named Tony Finn. Tony began a wakeboard revolution in 1985 when he developed his cross between a water ski and a surfboard. Then‚ the owner of H.O. Sports‚ a leading water ski manufacturer took interest in advancing it by introducing the first compression-molded-neutral-buoyancy wakeboard. He called it the Hyperlite. This wakeboard led to the growth of the marketplace making wakeboards more accessible to everyone. How a Wakeboard Works
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Buoyant Forces The purpose of this lab is to calculate buoyant forces of objects submerged in water. The first step in the lab was to measure the mass of a metal cylinder‚ which was found to be 100g‚ and then to calculated it’s weight‚ which was .98 newtons. Then next step was to measure the apparent weight of the cylinder when it is completely submerged in a bath of water using the formula Wa=ma*g ‚ this was found to be 88.5grams. Knowing these two numbers‚ the buoyant force that the water
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The global market for linear alkyl benzene (LAB) is expected to reach USD 9.27 billion by 2020‚ according to a new study by Grand View Research‚ Inc. Growing demand for household cleaning & industrial cleaning particularly in emerging market of Asia Pacific is expected to remain a key driving factor for the market. However‚ volatile raw material price is expected to remain a key challenge for market participants. Linear alkylbenzene sulphonate (LAS) emerged as the leading application segment for
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Succulence was determined according to the following equation: Succulence = Fresh Weight/Oven Dry Weight…………………........................................................(1) Measurement of Relative Water Content (RWC%);Relative Turgidity (RT %): Relative water content was estimated according to a modification of the method of Weatherly (1950); Weatherly and Barr (1962); Slatyer (1957);Fletcher et al. (1988)on the final day of the experiment and was calculated by the formula given byKramer (1983).Detached
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Significant Figures Lab Question 1: Which measurement gives the BEST value for the mass of a single paper clip? (BEST value includes both accuracy and precision) Claim: The measurement accepted as having the best value for the mass of a single paper clip was .411493 grams (Where best accounts for both accuracy and precision). This value was achieved by taking the average weight of a total of 30 paper clips‚ all of presumably varying weights. Evidence/Reasoning: The “best” value that maintains precision
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Practice Density Problems Solve the following problems showing all your work including equations and units. 1. Calculate the mass of a liquid with a density of 3.2 g/mL and a volume of 25 mL. (answer = 80 g) 2. An irregular object with a mass of 18 kg displaces 2.5 L of water when placed in a large overflow container. Calculate the density of the object. (answer = 7.2 kg/L or 7.2 g/mL or 7.2 g/cm3) 3. A graduated cylinder has a mass of 80 g when empty. When 20 mL of water is
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Q1.Based on the 2004 statement of profit and loss data (Exhibits 1 and 2)‚ do you agree with Water’s decision to keep product 103? In order to support an opinion on the side we decided to analyze all the probable scenarios. If the company management decided that it is better to stop the production of product 103‚ they could do this in one of the following manners: 1. Stop production and any business related to product 103. 2. Stop production but outsource it to another company and continue
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Buoyancy Lab: Archimedes’ Principle TABLE OF CONTENTS CONTENTS …………….………….…………….……………………………..Page No. 1. Abstract…………………………….…………….………….…………….……………….. 3 2. Objective & Introduction ……….……………………………………….………………...4 3. Theory & Experimental Methods ……………………………….………………………...5 4. Results & Discussion …………………………………………………….………….............6 5. Conclusions..…………………………………………………….…………………………..7 6. References.…………………………………………………………………………..………8 7. Appendix ……………………………………………………….……………..………….…9
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EXPERIMENT 1 CALIBRATION OF VOLUMETRIC GLASSWARE OBJECTIVES 1. To calibrate a 10 mL volumetric pipette 2. To calibrate a 25mL volumetric pipette 3. To calibrate a 100mL volumetric pipette 4. To calibrate a 50mL measuring cylinder EXPERIMENTAL PROCEDURE 1) Calibration of a volumetric pipette (10mL and 25mL) (a) Pipette is used to transfer the water. If the distilled water does not drain uniformly will leaves droplets of water in the inner
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Residual solvents Identification and control of the residual solvents (USP 32(467)‚ page 181 Determination by gas chromatography with mass detector and headspace sampler Conditions of the chromatograph Agilent 7890A (LCTG CGMS): * Column DB-624 30m 0.25 mm 1.4µ (CG-2) * Injector temperatura: 160ºC * Flux: 1.0 ml/min * Split: 5:1 * Carrier gas: Helium * Time per test: 30.6 min Conditions of the detector 5975C inert MSD * Data adquisition mode: Scan/SIM * Mass:
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