FYI, the answer is not in the answer choice. Instead, it is -894J but I do not know how to solve the problem
Homework Answers
According to first law of thermodynamics ,
ΔU = ∆q+w
Where,
ΔU = total change in internal energy of a system = - 1500
J
∆ q = change in heat between a system and its surroundings
w = work done by or on the system = - p∆V
Where p = 1.500 atm
∆V = change in volume = 5.000 - 1.000 L = 4.000 L
Substitute the values,
- 1500 J = ∆q + ( - 1.500 atm × 4.000 L)
- 1500 J = ∆q + ( - 1.5000 × 4.000 × (101.0 J))
∆ q = -1500 J + 606 J
∆ q = - 894 J
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FYI, the answer is not in the answer choice. Instead, it is
-894J but I do...
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General Physics
Do parts: i-m and assume the gas is diatomic: U = (5/2)nRT
(a) W = 415.7 J
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2 more answer choices to
question 9
6. One mole of an ideal gas is expanded from a volume of 1.00 liter to a volume of 3.83 liters against a constant extemal pressure of 1.00 atm. How much work (in joules) is performed on the surroundings? Ignore significant figures for this problem. (T = 300 K; 1 L'atm = 101.3 J) a. 143j b. 287 C. 8.60 x 102 J d. 388 J e, none of these 7. Calculate the...
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MISSED THIS? Read Section 7.4 (Pages 272-278). A gas is compressed from an initial volume of 5.45 L to a final volume of 1.24 L by an external pressure of 1.00 atm. During the compression the gas releases 124 J of heat. Part A What is the change in internal energy of the gas? Express your answer to three significant figures. VOAESD ΔΕ- Request Answer Submit Provide Feedback
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General Physics
Do parts: i-m and assume the gas is diatomic: U = (5/2)nRT
(a) W = 415.7 J
(b) on the piston
(c) 1039.25 J
(d) Q added = 1454.95 J
(e) W = 0 J
(f) N/A
(g) -1039.25 J
(h) = -1039.25 J
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YOU!
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