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18 Nov 2019
1. System vs. Surroundings a. How do you define a system? How do you define the surroundings? b. Describe the difference between the surroundings doing work ON the system and work being done by the surroundings c. How do you know when the system is doing work vs when the surroundings are doing work? d. Is heat flow negative or positive when the system does work on the surroundings? Is this endothermic or exothermic? e. Nitrogen gas is commonly compressed in cylinders for easy storage and use. If the gas is compressed to fit the volume of a 20L cylinder, and the work done on the cylinder is 2980 kJ, what is the pressure, in atm, of this compressed gas? f. Is this system open, closed, or isolated? 2. First Law of Thermodynamics a. What is it? Why is it so useful? b. How does it differ from w =-PAV? c. How do l identify a state function? d. Internal energy results from the sum of heat and work. Suppose the heat is released to the surroundings, and the work is done by this system. Write the signs of each term, and predict if the overall sign for internal energy will be positive or negative. What does this tell us about this cycle? e. The internal energy of some new fuel cell engine is determined to be 9.5 x 10* kl. The fuel cell uses a certain reaction that draws energy from the surroundings in the form of heat. In this case, the heat supplied corresponds to 1388 kJ. What is the resulting work of this fuel cell?
1. System vs. Surroundings a. How do you define a system? How do you define the surroundings? b. Describe the difference between the surroundings doing work ON the system and work being done by the surroundings c. How do you know when the system is doing work vs when the surroundings are doing work? d. Is heat flow negative or positive when the system does work on the surroundings? Is this endothermic or exothermic? e. Nitrogen gas is commonly compressed in cylinders for easy storage and use. If the gas is compressed to fit the volume of a 20L cylinder, and the work done on the cylinder is 2980 kJ, what is the pressure, in atm, of this compressed gas? f. Is this system open, closed, or isolated? 2. First Law of Thermodynamics a. What is it? Why is it so useful? b. How does it differ from w =-PAV? c. How do l identify a state function? d. Internal energy results from the sum of heat and work. Suppose the heat is released to the surroundings, and the work is done by this system. Write the signs of each term, and predict if the overall sign for internal energy will be positive or negative. What does this tell us about this cycle? e. The internal energy of some new fuel cell engine is determined to be 9.5 x 10* kl. The fuel cell uses a certain reaction that draws energy from the surroundings in the form of heat. In this case, the heat supplied corresponds to 1388 kJ. What is the resulting work of this fuel cell?
Sixta KovacekLv2
19 May 2019