Answered: How much heat, in joules, is transferred into a system when its internal energy decreases by 165 J while it was performing 29.5 J of work? Q = - 189.51

Related questions

Q: A fire is lit in a hot air balloon, causing 100 J of heat to flow into the air in the balloon.…

A: The change in internal energy is given by, ∆U=Q-W

Q: What is the change in internal energy of a system that takes in 2.83 106 J of heat, and does 4.50…

A: Given that Work done by the system (W) = 4.50×105J Heat transfer into the system is (Q1) = 2.83…

Q: What is the change in internal energy of a system that takes in 3.33 106 J of heat, and does 4.50…

A: According to the first law of thermodynamics,∆U=Q-W.......(1)Where,∆U is the change in internal…

Q: Problem 11: The energy content of gasoline is 1.3 x 10³ J/gal. What is the change in internal…

Q: QUESTION 19 Consider N solar collectors (N= 12, 14, 16), of dimension [2m x 2m, 2m x 1.5 m, 2m…

A: A black body is an ideal object that absorbs all the radiation irrespective of its wavelength. Real…

Q: In a game of football outdoors on a cold day, a player will begin to feel exhausted after using…

A: Available Internal Energy = U = 8.0 x 105J

Q: Suppose a woman does 600 J of work and -9400 J of heat transfer occurs into the environment in the…

A: Work, W = 600 JHeat, Q = -9400 JEfficiency, Eff = ?

Q: A gasoline engine takes in 1.61×104 J of heat and delivers 3700 J of work per cycle. The heat is…

Q: If 3.50E2 J of heat are transferred to a system, while the system does 203 J of work. What is the…

A: Heat transferred = Q = 3.50 × 102 J Work done = W = 203 J Change in internal energy = ∆U = ?

Q: Work of 3000 J is done on an ideal gas, but the internal energy raises only 1600 J. What is the…

Q: If the plant operates at 50.0% of its maximum efficiency and its power output is 1.23 × 108 W, at…

A: The given data are: TH=540 KTL=313 KQH=1.23×108 W Here, TH is the higher temperature, TL is the…

Q: 55 J of heat energy are transferred into an ideal gas and 40 J of work is done on the gas. What is…

Q: Suppose 150 Joules of work is done on a system and that 300 Joules of heat are delivered to the…

A: Given data: Work done on the system = 150 J Heat added to the system = 300 J Required: Change in…

Q: An ideal gas absorbs 437 J of heat from its environment and does 831 J of work on the environment.…

A: The given values are,

Q: Consider the change in the internal energy of a system. what is the change in the internal…

A: Given data: The work done by the system, δW=4.75×105 J The heat supply to the system, δQ1=3.05×106…

Q: A syste m does 125 J of work on its environment and gains 88.9 J of heat in the process. Find the…

A: a. According to the first law of thermodynamics. So the change in the internal energy of the system…

Q: Problem 12: A system does 1.9 × 108 J of work while 5.5 x 108 J of heat is transferred from the…

A: Given : Work done (W) = 1.9 x 108 Joule Heat transferred (Q) = - 5.5 x 108 Joule ..... (Negative…

Q: 3600 J of work are done on a container of Argon gas compressing it down from its original state of…

A: According to first law of thermodynamics Q = ΔU + W ΔU = change in internal energy W = work done

Q: In a game of football outdoors on a cold day, a player will begin to feel exhausted after using…

A: Given : ∆U = -8 × 105 J (negative because internal energy is lost before being exhausted) In part…

Q: A heat engine takes in 2500J and does 1500J of work. a) How much energy is expelled as waste?…

A: Given Data: The heat supplied to the engine is: Qs=2500 J The work produced by the engine is: W=1500…

Q: Air in a balloon does 37 J of work while absorbing 88 J of heat. What is its change in internal…

Q: A thermodynamical system performs work and at the time exchanges energy to the outside environment…

A: First law of thermodynamics: The way of expressing the first law of thermodynamics is that any…

Question

How much heat, in joules, is transferred into a system when its internal energy decreases by 165 J while it was performing 29.5 J of work?
Q = - 189.51

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

See solution Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by stepSolved in 3 steps

See solution

Check out a sample Q&A here

Knowledge Booster