Textbook Question
The volume of a gas is halved during an adiabatic compression that increases the pressure by a factor of 2.5. What is the specific heat ratio γ?
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Ch 19: Work, Heat, and the First Law of Thermodynamics
Knight Calc5th EditionPhysics for Scientists and EngineersISBN: 9780137344796
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Table of contents
- Ch 01: Concepts of Motion35
- Ch 02: Kinematics in One Dimension75
- Ch 03: Vectors and Coordinate Systems58
- Ch 04: Kinematics in Two Dimensions60
- Ch 05: Force and Motion23
- Ch 06: Dynamics I: Motion Along a Line53
- Ch 07: Newton's Third Law27
- Ch 08: Dynamics II: Motion in a Plane52
- Ch 09: Work and Kinetic Energy56
- Ch 10: Interactions and Potential Energy50
- Ch 11: Impulse and Momentum56
- Ch 12: Rotation of a Rigid Body71
- Ch 13: Newton's Theory of Gravity52
- Ch 14: Fluids and Elasticity44
- Ch 15: Oscillations55
- Ch 16: Traveling Waves37
- Ch 17: Superposition39
- Ch 18: A Macroscopic Description of Matter53
- Ch 19: Work, Heat, and the First Law of Thermodynamics60
- Ch 20: The Micro/Macro Connection53
- Ch 21: Heat Engines and Refrigerators34
- Ch 22: Electric Charges and Forces40
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- Ch 38: Quantization49
- Ch 39: Wave Functions and Uncertainty31
- Ch 40: One-Dimensional Quantum Mechanics35
- Ch 41: Atomic Physics18
- Ch 42: Nuclear Physics27
Knight Calc5th EditionPhysics for Scientists and EngineersISBN: 9780137344796Not the one you use?Change textbook
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Knight Calc 5th EditionCh 19: Work, Heat, and the First Law of ThermodynamicsProblem 31b
Knight Calc 5th EditionCh 19: Work, Heat, and the First Law of ThermodynamicsProblem 31bChapter 19, Problem 31b
The volume of a gas is halved during an adiabatic compression that increases the pressure by a factor of 2.5. By what factor does the temperature increase?
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Step 1: Recall the relationship for an adiabatic process, which is governed by the equation \( PV^\gamma = \text{constant} \), where \( \gamma \) (gamma) is the adiabatic index or ratio of specific heats \( \gamma = \frac{C_p}{C_v} \). This equation implies that pressure, volume, and temperature are interrelated during an adiabatic process.
Step 2: Use the ideal gas law \( PV = nRT \) to relate pressure, volume, and temperature. Since \( nR \) is constant, the temperature can be expressed as \( T = \frac{PV}{nR} \). This means that changes in pressure and volume will directly affect the temperature.
Step 3: For an adiabatic process, the temperature ratio can be derived using the relationship \( T_2 / T_1 = (V_1 / V_2)^{\gamma - 1} \). Here, \( V_1 \) is the initial volume, \( V_2 \) is the final volume, and \( \gamma \) is the adiabatic index. Substitute \( V_2 = \frac{V_1}{2} \) (since the volume is halved).
Step 4: Substitute the given pressure ratio \( P_2 / P_1 = 2.5 \) into the adiabatic relationship \( P_1 V_1^\gamma = P_2 V_2^\gamma \). This allows you to confirm the consistency of the pressure and volume changes with the adiabatic process.
Step 5: Combine the pressure and volume relationships to calculate the temperature ratio \( T_2 / T_1 \). Use the formula \( T_2 / T_1 = (P_2 / P_1)^{(\gamma - 1)/\gamma} \) and substitute \( P_2 / P_1 = 2.5 \). The value of \( \gamma \) depends on the type of gas (e.g., \( \gamma = 1.4 \) for diatomic gases like air).
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Adiabatic Process
An adiabatic process is a thermodynamic process in which no heat is exchanged with the surroundings. In such processes, any change in the internal energy of the system is due solely to work done on or by the system. This concept is crucial for understanding how gases behave under compression or expansion without heat transfer.
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Ideal Gas Law
The Ideal Gas Law relates the pressure, volume, temperature, and number of moles of a gas through the equation PV = nRT. This law provides a foundational understanding of gas behavior and is essential for calculating changes in state variables during processes like adiabatic compression, where pressure and volume change while maintaining a constant number of moles.
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Temperature and Pressure Relationship in Adiabatic Processes
In an adiabatic process, the relationship between temperature and pressure can be described by the equation T1 * V1^(γ-1) = T2 * V2^(γ-1), where γ (gamma) is the heat capacity ratio (Cp/Cv). This relationship indicates how temperature changes in response to pressure and volume changes, allowing us to determine the factor by which temperature increases when the volume is halved and pressure is increased.
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Related Practice
Textbook Question
You are boiling pasta and absentmindedly grab a copper stirring spoon rather than your wooden spoon. The copper spoon has a 20 mm ×1.5 mm rectangular cross section, and the distance from the boiling water to your 35°C hand is 18 cm. How long does it take the spoon to transfer 25 J of energy to your hand?
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Textbook Question
A gas cylinder holds 0.10 mol of O₂ at 150°C and a pressure of 3.0 atm. The gas expands adiabatically until the pressure is halved. What are the final volume?
Textbook Question
A gas cylinder holds 0.10 mol of O₂ at 150°C and a pressure of 3.0 atm. The gas expands adiabatically until the volume is doubled. What are the final pressure?
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Textbook Question
The ends of a 20-cm-long, 2.0-cm-diameter rod are maintained at 0°C and 100°C by immersion in an ice-water bath and boiling water. Heat is conducted through the rod at 4.5×104 J per hour. Of what material is the rod made?
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Textbook Question
A gas cylinder holds 0.10 mol of O₂ at 150°C and a pressure of 3.0 atm. The gas expands adiabatically until the pressure is halved. What are the final temperature?
2
views