Abstract By using the given structure contour map for the Scope field‚ the given parameters as well as the assumptions‚ the Oil and Gas Reserve was calculated and are given below: Table 1: Gas Reserves estimate Gas Reserves | | | m3 | Bft3 | 1P | 1.30E+10 | 368.1 | Table 2: Oil Reserves estimate Oil Reserves | | | m3 | MMbbl | 1P | 2.64E+08 | 663.6 | 2P | 3.67E+08 | 922.6 | 3P | 8.44E+08 | 2123.3 | The properties of the reservoir can be expected to change due to
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Interpretation of the Arterial Blood Gas Self-Learning Packet 2004 This self-learning packet is approved for 2 contact hours for the following professionals: 1. Registered Nurse 2. Licensed Practical Nurse Orlando Regional Healthcare‚ Education & Development Copyright 2004 Arterial Blood Gas Interpretation Table of Contents Purpose ................................................................................................................... 3 Objectives ...........
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: As you can see that the greater the amount of pennies were added at the top of the cup‚ the shorter the distance of the cup moved and it included all of the three Newton’s laws. My hypothesis actually turned out to be accurate. It’s really fascinating that how only 1 experiment can prove all of Newton’s three laws of motion just like that. When the marble was getting released from the ramp I observed it hitting the cup and surprisingly the cup didn’t fall off or changed directions it went in
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3: Problems & Answers Week 4: Feb 2- 6‚ 2009 1. Consider a gas that occupies 1.00 dm3 at a pressure of 2.00 bar. If the gas is compressed isothermally at constant external pressure‚ Pext‚ so that the final volume is 0.500 dm3‚ what is the smallest value Pext can have? Calculate the work involved using this value of Pext. Solution For compression to occur‚ the value of Pext must be at least as large as the final pressure of the gas. P1 = 2.00 bar‚ V1 = 1.00 dm3‚ V2 = 0.500 dm3‚ P2 = ? = 4
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projected problems and requests your assistance on the particular one described below. Decades from now‚ the present method of supplying energy to households (i.e.‚ with electricity‚ gas‚ or o11) may not be possible. Instead‚ housepersons will shop for their energy in supermarkets (Figure P4.5). Cyhnders of gas (let us ? +llh ’ I Figure P4.5 assume that the cylinders contain air) may be purchased and connected to any number of Carnot engines or other such efficient devices to be
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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. DESCRIPTION AND EXPERIMENTAL PROCEDURE PART I: Determination of γ for Air Motion of Steel ball steel ball R Tap ubber mat The
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Product Portfolio Analysis ‘Coca-cola’ is my chosen business. SWOT – Strengths‚ Weaknesses‚ Opportunities‚ Threats. S- 1. ‘’Bottling Network: Coca-Cola partnerships with 275 bottling companies allow it to distribute products all over the world. The network also allows companies to cater to varying consumer tastes in different cultures‚ regions and countries. For example‚ if a local market prefers tea then the local bottler can mix and package the beverage for distribution. It has relationships
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thermodynamics substancessuch as gases and vapours are often referred as P-V-T substances.An ideal gas obeys the equation of state that relates the pressure‚ specific volume or density‚ and absolute temperature with mass of molecule and the gas constant‚ R.However‚ real gas does not absolutely obey the equation of state. A few modifications onthe ideal gas equation of state allow its application in the properties of real gas. Whenenergy is added within water‚ the increasing of activities among the molecules caused
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Theory: An ideal gas obeys the equation of state that the pressure‚ specific volume or density‚ and absolute temperature with mass of molecule and the gas constant‚ R. PV = mRTM Where‚ P = Absolute pressure V = Volume n = Amount of substance (moles) R = Ideal gas constant T = Absolute temperature (K) However‚ real gas does not absolutely obey the equation of state. A few changes on the ideal gas equation of state allow its application in the properties of real gas. When energy increases
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density of water in this range is 0.997 g/cm3 . [2] (c) For Mercury‚ given that a (expansion coefficient)= I.82 x I 0-4 K- 1 and compressibility)= 3.87 X K (isothennal w-s atm- 1 at 20 °C; find out (!lin SI unit. [2) (d) In the gas-phase reaction A+ 2B ~ 3C + 2 D‚ it was found that when 2.00 mol A‚ 1.00 mol B‚ and 3.00 molD were mixed and allowed to come to equilibrium at 25°C‚ the resulting mixture contained 0.79 mol Cat a total pressure of 1.00 bar. Calculate (i) Kx‚ (ii)
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