A refrigerator has a coefficient of performance equal to 5.8. If the refrigerator absorbs 262.9 J of thermal energy from a cold reservoir in each cycle, find the work done on the system each cycle (in J). Enter a number with one digit behind the decimal point.
Qin = 262.9J and Cop = 5.8
Since Cop = Qin/W
=) W = Qin/Cop = 262.9/5.8 = 45.3 Joule.
That means work done per cycle W = 45.3 J
A refrigerator has a coefficient of performance equal to 5.8. If the refrigerator absorbs 262.9 J...
A refrigerator has a coefficient of performance equal to 4.4. If the refrigerator absorbs 203.4 J of thermal energy from a cold reservoir in each cycle, find the work done on the system each cycle (in J). Enter a number with one digit behind the decimal point.
A refrigerator has a coefficient of performance equal to 4.4. If the refrigerator absorbs 203.4 J of thermal energy from a cold reservoir in each cycle, find the work done on the system each cycle (in J). Enter a number with one digit behind the decimal point.
A refrigerator with a coefficient of performance of 1.80 absorbs 3.15×104 J of heat from the low-temperature reservoir during each cycle. How much mechanical work is required to operate the refrigerator for a cycle? How much heat does the refrigerator discard to the high-temperature reservoir during each cycle?
A refrigerator has a coefficient of performance of 1.15, and it extracts 7.95 J of heat from the cold reservoir during each cycle. (a) How much work is done on the gas in each cycle? (b) How much heat is exhausted into the hot reservoir in each cycle? I've seen a similar question, but I still don't understand how to solve. Can I get help please, step by step would be kind.
Problem 18.56 6 of 8 Review A refrigerator with a coefficient of performance of 1.85 absorbs 3.54x10* J of heat from the low- temperature reservoir during each cycle. Part A How much mechanical work is required to operate the refrigerator for a cycle? ΡΕΙ ΑΣφ + ? Submit Request Answer Part 8 How much heat does the refrigerator discard to the high-temperature reservoir during each cycle? 10 AED + + ? KJ Submit Request Answer
TIUVICU TU. A refrigerator has a coefficient of performance of K = 2.1. Each cycle, it absorbs 3.75x104 J of heat from the cold reservoir. The refrigerator is driven by a Carnot engine that has an efficiency of e=0.5 Eckboard - The Cit x Bb Pre-Lab Assignments - 201 X C Six HepID=9ca21d320b455f2dffd7601af0f84482#10001 Part A How much mechanical energy is required each cycle to operate the refrigerator? Express your answer in joules to two significant figures. IVO ALDO a ?...
Goal Solve for the performance coefficient of a refrigerator using a five- step process the includes: 1. Making a state table. 2. Making a process table. 3. Calculating the totals for Work, Heat, and Internal-Energy-Change. 4. Identifying the heat input (cold reservoir) and output (hot reservoir). 5. Calculating the performance coefficient of the refrigerator. isothermal Problem Shown in the figure to the right is a cyclic process undergone by a refrigerator. Your refrigerator shall use 8.0 moles of helium gas...
A)How much mechanical work is required to operate the refrigerator for a cycle? B)How much heat does the refrigerator discard to the high-temperature reservoir during each cycle? A refrigerator with a coefficient of performance of 1.77 absorbs 3.64x104 J of heat from the low- temperature reservoir during each cycle.
A Carnot refrigerator has a coefficient of performance of KC=4. If the temperature of the hot reservoir is TH=400K, what is the temperature of the cold temperature reservoir, TC?
(a) During each cycle, a Carnot engine absorbs 772 J as heat from a high-temperature reservoir at 388 K, with the low-temperature reservoir at 287 K. How much work is done per cycle? (b) The engine is then made to work in reverse to function as a Carnot refrigerator between those same two reservoirs. During each cycle, how much work is required to remove 1206 J as heat from the low-temperature reservoir? () Numbel 200.9590 UnitsT j UnitsT j (b)...