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Unformatted text preview: james (ajj653) – Homework 9 – sutcliffe – (50985) 1 This printout should have 22 questions. Multiplechoice questions may continue on the next column or page – find all choices before answering. What’s the chemical formula of water? HIJKLMNO (a little geek humor for you) NOTE: Read the questions carefully. If it asks for a CHANGE (Delta) in a quantity or the VALUE of that quantity, then you must be sure to include the correct sign. Remem ber that the quantities are for the SYSTEM, unless stated differently, and sometimes we switch our viewpoint of what the system is once we have finished a calculation. This cov ers Ch. 9. The rest will be on HW 10, the last HW. 001 10.0 points When a hydrocarbon is burned in the pres ence of oxygen, the amount of energy in the universe 1. increases. 2. decreases. 3. stays the same. correct Explanation: 002 10.0 points A sample of an ideal gas having a volume of 0.677 L at 298 K and 10.0 atm pressure is al lowed to expand against a constant opposing pressure of 0.294 atm until it has a volume of 1.000 L at 200 K and the pressure equals the opposing pressure. What is the work for the system? Correct answer: 9 . 61965 J. Explanation: P 1 = 10.0 atm P 2 = 0.294 atm V 1 = 0.677 L V 2 = 1.000 L T 1 = 298 K T 2 = 200 K In this case, the P is the constant opposing pressure 0.294 atm. Δ V is the change in volume you observe, from 0.677 L to 1.000 L. Plugging these values into the equation, you get w = P Δ V w = (0 . 294 atm)(1 . 000 L . 677 L) = (0 . 294 atm)(0 . 323 L) However, some conversion factors will have to be applied. To get to Joules, which is the same as N · m, two conversions will be needed: L to m 3 and atm to unit of pressure which includes newtons (which is Pa, defined as N/m 2 ). Recalling that 1 mL = 1 cm 3 , and 100 cm = 1 m, the equation should be w = (0 . 294 atm)(0 . 323 L) × parenleftbigg 1000 cm 3 1 L parenrightbiggparenleftbigg 101325 N / m 2 1 atm parenrightbigg × parenleftbigg 1 m 3 10 6 cm 3 parenrightbigg = 9 . 62 J 003 10.0 points A CD player and its battery together do 500 kJ of work, and the battery also releases 250 kJ of energy as heat and the CD player re leases 50 kJ as heat due to friction from spin ning. What is the change in internal energy of the system, with the system regarded as the CD player alone? Assume that the bat tery does 500 kJ of work on the CD player, which then does the same amount of work on the surroundings. 1. 550 kJ 2. 950 kJ 3. 800 kJ 4. 50 kJ correct 5. +450 kJ Explanation: Heat from the CD player is 50 kJ. Battery (part of the surroundings ) does 500 kJ work on the CD player. CD player does 500 kJ work on some other part of the surroundings . james (ajj653) – Homework 9 – sutcliffe – (50985) 2 This question is testing your ability to see what the system is, and then look at ONLY the energy flow for the system. Here the sys tem is just the CD player. What the battery player does is irrelevant, unless it involves the CD player:...
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 Spring '10
 Sutcliffe
 Enthalpy, Energy

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