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Unformatted text preview: Owlia, Arria – Homework 10 – Due: Nov 21 2007, 6:00 pm – Inst: Vandenbout 1 This printout should have 25 questions. Multiplechoice questions may continue on the next column or page – find all choices before answering. The due time is Central time. 001 (part 1 of 1) 10 points On January 1, 2001, a bookstore had 266,478 books in stock. On February 1, 2001, the same bookstore had 257,814 books in stock. What is the value of Δ(books) for the bookstore during that period? Correct answer: 8664 books. Explanation: B f = 257 , 814 books B i = 266 , 478 books Δ B = B f B i = 257 , 814 books 266 , 478 books = 8664 books Thus the bookstore had 8664 fewer books on February 1. 002 (part 1 of 1) 10 points Work is 1. kinetic energy. 2. potential energy. 3. organized molecular motion. correct 4. heat. 5. chaotic molecular motion. Explanation: Work is organized molecular motion since it is displacement of a solid against a force. 003 (part 1 of 1) 10 points A chemical reaction takes place in a container of crosssectional area 100 cm 2 . As a result of the reaction, a piston is pushed out through 21 cm against an external pressure of 588 torr. What is the value for w for this reaction? (Sign does matter.) Correct answer: 165 J. Explanation: 004 (part 1 of 1) 10 points A 100 W electric heater (1W = 1J / s) oper ates for 8 . 5 min to heat the gas in a cylinder. At the same time, the gas expands from 1 L to 7 L against a constant atmospheric pressure of 4 . 276 atm. What is the change in internal energy of the gas? Correct answer: 48 . 4004 kJ. Explanation: P ext = 4 . 276 atm V ini = 1 L 1 L · atm = 101 . 325 J V final = 7 L If the heater operates as rated, then the to tal amount of heat transferred to the cylinder will be q = (100 J / s)(8 . 5 min)(60 s / min) = 51000 J = 51 kJ Work will be given by w = P ext Δ V in this case because it is an expansion against a constant opposing pressure: w = (4 . 276 atm)(7 L 1 L) = 25 . 656 L · atm Convert to kilojoules (kJ) w = ( 25 . 656 L · atm)(101 . 325J / L · atm) = 2599 . 59 J = 2 . 59959 kJ The internal energy change is Δ U = q + w = 51 kJ + ( 2 . 59959 kJ) = 48 . 4004 kJ 005 (part 1 of 1) 10 points A system had 150 kJ of work done on it and its internal energy increased by 60 kJ. How much energy did the system gain or lose as heat? 1. The system gained 90 kJ of energy as heat. Owlia, Arria – Homework 10 – Due: Nov 21 2007, 6:00 pm – Inst: Vandenbout 2 2. The system lost 90 kJ of energy as heat. correct 3. The system gained 210 kJ of energy as heat. 4. The system gained 60 kJ of energy as heat. 5. The system lost 210 kJ of energy as heat. Explanation: 006 (part 1 of 1) 10 points When 2.00 kJ of energy is transferred as heat to nitrogen in a cylinder fitted with a piston at an external pressure of 2.00 atm, the nitro gen gas expands from 2.00 to 5.00 L against this constant pressure. What is Δ U for the process?...
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This note was uploaded on 05/01/2008 for the course CH 301 taught by Professor Fakhreddine/lyon during the Fall '07 term at University of Texas.
 Fall '07
 Fakhreddine/Lyon

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