Group No. Date: Leader : Section: Members: Experiment no: 1A Data and Results: Initial Temperature: To = 25 degrees Celsius Final Temperature: Tf = 100 degrees Celsius Rod | Initial length | Change in Length | Coefficient of Linear Expansion(Exp) | Coefficient of Linear Expansion(Theo) | % Error | Steel | 40 | .035 | 1.17 x 10 / C | 1.1 x 10^-5/ C | 6.36% | Copper | 40 | .055 | 1.8 x 10 ^-5 /C | 1.7 x 10^-5 /C | 5.88% | Computation : Conclusion: 1. A bemetalli
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Investigating the effects of temperature on cell membranes Independent variable: Temperature of beetroot Dependent variable: Absorbency of light Hypothesis: As temperature rises to its optimum temperature‚ the absorbency of light will increase because protein is an enzyme and will therefore be affected by temperature. This is because more beetroot dye will pass through the cell membrane and then into the distilled water. The deeper the colour of the beetroot dye‚ the higher the absorbency
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Cindy Hoang-Tran Professor Ducat English 101 13 Dec 2012 Gas Fracking Natural gas is extremely useful in our lives. We need natural gases to heat our houses and use microwave ovens‚ conventional ovens and stovetops. Because the economy currently isn’t well off – and hasn’t been recently – natural gases are now in higher demand for cheaper prices. Oil and gas drilling facilities are now making it possible for natural gases to be sold at extremely cheap prices and accessible amounts through the
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MOTOR TEMPERATURE RATINGS A frequently misunderstood subject related to electric motors is insulation class and temperature ratings. This paper tries to describe‚ in basic terms‚ the temperature relationships that are meaningful in standard AC induction motors. Some of the same information can be applied to DC motors but DC motors are more specialized and some of the ratings are slightly different. Perhaps the best way to start is to define the commonly used terms. MOTOR SURFACE TEMPERATURES
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The Effect of Varying Temperatures to the Rate of Respiration of Bufo marinus Statement of the problem: At which environmental temperature‚ do toads have the highest respiration rate? Most animals obtain oxygen‚ which comprise 21% of the air‚ from the environment. Oxygen combines with hemoglobin of the blood to form oxyhemoglobin. Oxyhemoglobin is transported to the tissues where oxygen is released and used for the metabolic functions of the animal. The functions produce waste materials‚ such
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Oil & Gas Sector Analysis Submitted to Dr. Atmanand In partial fulfilment of the requirements of the course Managerial Economics Submitted By GROUP 2 Ankita Chokraborty (13PGHR06) Arjun Parekh (13PGHR07) Ashim Gupta (13PGHR08) Atul Kohli (13PGHR10) B Vishnu Vardhan (13PGHR11) Tanya Mehta (13PGHR58) Acknowledgement Of the many people who have been enormously helpful in the preparation of this project‚ we are especially thankful to Dr. Atmanand‚ Professor‚ Economics
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EFFECT OF ROOM TEMPERATURE ON THE BURN-RATE OF A CANDLE BURNS Have you ever wondered whether a candle burns more quickly on a hot day‚ than on a cold day? Or is it the other way around? This science fair project was carried out to compare how quickly a candle will burn at different room temperatures. The experiment was done by measuring how much of a candle will melt in 30 minutes when placed in an environment with surrounding temperatures of 20°C‚ 25°C and 30°C. Hypothesis A candle in a colder
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prepared for the experiment‚ one at room temperature and the other two at 15°C and at 5°C. The room temperature water bath was prepared by filling a basin with tap water about ¾ full so that when the subject’s face is submerged‚ the water will not spill. A thermometer was used in order to obtain the temperature of the water. The temperature obtained was at 26°C. The water baths having temperatures of 15°C and 5°C were also prepared the same way as the room temperature water bath only with the addition of
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Technical Paper WFGD Case Study -- Maximizing SO2 Removal by Retrofit with Dual Tray Technology A.A. Silva and P.J. Williams The Babcock & Wilcox Company Barberton‚ Ohio‚ U.S.A. J. Balbo Michigan South Central Power Agency Litchfield‚ Michigan‚ U.S.A. Presented to: EPRI-DOE-EPA-AWMA Combined Power Plant Air Pollutant Control Mega Symposium August 28-31‚ 2006 Baltimore‚ Maryland‚ U.S.A. 6 The Babcock & Wilcox Company BR-1785 WFGD Case Study - Maximizing SO2 Removal
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Plan:- Independent Variable- Temperature is what I will be changing in the experiment. I want to find out what effect temperature has on the permeability of a cell membrane. Controlling other Variables- I will use measures to ensure that everything stays the same in my test to gain the best and most reliable results possible - Same volume of water that I put the beetroot into after heating. - The beetroot I use will be the same size each time‚ I will ensure this using a cork borer. - The beetroot
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