Textbook Question
A helium-filled balloon escapes a child’s hand at sea level and 20.0°C. When it reaches an altitude of 3600 m, where the temperature is 5.0°C and the pressure only 0.64 atm, how will its volume compare to that at sea level?
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Ch. 17 - Temperature, Thermal Expansion, and the Ideal Gas Law
Giancoli Douglas5th editionPhysics for Scientists and EngineersISBN: 9780137488179
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Table of contents
- Ch. 01 - Introduction, Measurement, Estimating10
- Ch. 02 - Describing Motion: Kinematics in One Dimension30
- Ch. 03 - Kinematics in Two or Three Dimensions; Vectors15
- Ch. 04 - Dynamics: Newton's Laws of Motion16
- Ch. 05 - Using Newton's Laws: Friction, Circular Motion, Drag Forces22
- Ch. 06 - Gravitation and Newton's Synthesis10
- Ch. 07 - Work and Energy21
- Ch. 08 - Conservation of Energy33
- Ch. 09 - Linear Momentum26
- Ch. 10 - Rotational Motion41
- Ch. 11 - Angular Momentum; General Rotation27
- Ch. 12 - Static Equilibrium; Elasticity and Fracture27
- Ch. 13 - Fluids28
- Ch. 14 - Oscillations14
- Ch. 15 - Wave Motion35
- Ch. 16 - Sound5
- Ch. 17 - Temperature, Thermal Expansion, and the Ideal Gas Law40
- Ch. 18 - Kinetic Theory of Gases18
- Ch. 19 - Heat and the First Law of Thermodynamics31
- Ch. 20 - Second Law of Thermodynamics32
- Ch. 21 - Electric Charge and Electric Field7
- Ch. 23 - Electric Potential20
- Ch. 24 - Capacitance, Dielectrics, Electric Energy, Storage15
- Ch. 25 - Electric Current and Resistance32
- Ch. 26 - DC Circuits22
- Ch. 27 - Magnetism21
- Ch. 28 - Sources of Magnetic Field24
- Ch. 29 - Electromagnetic Induction and Faraday's Law21
- Ch. 30 - Inductance, Electromagnetic Oscillations, and AC Circuits42
- Ch. 31 - Maxwell's Equations and Electromagnetic Waves25
- Ch. 32 - Light: Reflection and Refraction42
- Ch. 33 - Lenses and Optical Instruments21
- Ch. 34 - The Wave Nature of Light: Interference and Polarization26
- Ch. 35 - Diffraction24
- Ch. 36 - The Special Theory of Relativity29
- Ch. 38 - Quantum Mechanics1
- Ch. 40 - Molecules and Solids6
- Ch. 43 - Elementary Particles3
- Ch. 44 - Astrophysics and Cosmology9
Giancoli Douglas5th editionPhysics for Scientists and EngineersISBN: 9780137488179Not the one you use?Change textbook
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Giancoli Douglas 5th editionCh. 17 - Temperature, Thermal Expansion, and the Ideal Gas LawProblem 45
Giancoli Douglas 5th editionCh. 17 - Temperature, Thermal Expansion, and the Ideal Gas LawProblem 45Chapter 17, Problem 45
If 59.2 L of oxygen at 18.0°C and an absolute pressure of 2.45 atm are compressed to 38.8 L and at the same time the temperature is raised to 56.0°C, what will the new pressure be?
Verified step by step guidance1
Start by identifying the given values: initial volume \( V_1 = 59.2 \; \text{L} \), initial temperature \( T_1 = 18.0^\circ \text{C} = 291.15 \; \text{K} \) (convert to Kelvin by adding 273.15), initial pressure \( P_1 = 2.45 \; \text{atm} \), final volume \( V_2 = 38.8 \; \text{L} \), and final temperature \( T_2 = 56.0^\circ \text{C} = 329.15 \; \text{K} \). The goal is to find the final pressure \( P_2 \).
Use the combined gas law, which relates pressure, volume, and temperature: \( \frac{P_1 V_1}{T_1} = \frac{P_2 V_2}{T_2} \). Rearrange this equation to solve for \( P_2 \): \( P_2 = P_1 \cdot \frac{V_1}{V_2} \cdot \frac{T_2}{T_1} \).
Substitute the known values into the equation: \( P_2 = 2.45 \; \text{atm} \cdot \frac{59.2 \; \text{L}}{38.8 \; \text{L}} \cdot \frac{329.15 \; \text{K}}{291.15 \; \text{K}} \).
Simplify the fractions for volume and temperature: \( \frac{59.2}{38.8} \) and \( \frac{329.15}{291.15} \). Then multiply these ratios with the initial pressure \( P_1 \).
The result of the calculation will give you the final pressure \( P_2 \) in atm. Ensure that the units are consistent throughout the calculation to maintain accuracy.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Ideal Gas Law
The Ideal Gas Law is a fundamental equation in thermodynamics that relates the pressure, volume, temperature, and number of moles of a gas. It is expressed as PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant, and T is temperature in Kelvin. This law allows us to predict how a gas will behave under changing conditions.
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Charles's Law
Charles's Law states that the volume of a gas is directly proportional to its absolute temperature when pressure is held constant. Mathematically, it can be expressed as V1/T1 = V2/T2. This principle is crucial for understanding how temperature changes affect the volume of a gas, which is relevant in the given problem.
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Boyle's Law
Boyle's Law states that the pressure of a gas is inversely proportional to its volume when temperature is held constant. This relationship can be expressed as P1V1 = P2V2. In the context of the problem, this law helps to understand how the pressure of the gas will change as its volume is altered, especially when combined with temperature changes.
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Related Practice
Textbook Question
What is the pressure inside a 41.0-L container holding 105.0 kg of argon gas at 21.6°C?
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Textbook Question
A helium balloon rises because of a buoyant force. By what percentage does the buoyant force on a helium balloon change if the temperature of the helium is increased from 15°C to 25°C while the temperature of the surrounding air is unchanged? Assume that the pressure of the helium remains constant.
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Textbook Question
You buy an “airtight” potato chip bag packaged at sea level, and take the chips on an airplane flight. When you take the potato chip bag out of your “carry-on” bag, you notice it has noticeably “puffed up.” Airplane cabins are typically pressurized at 0.75 atm, and assuming the temperature inside an airplane is about the same as inside a potato chip processing plant, by what percentage has the bag “puffed up” in comparison to when it was packaged?
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Textbook Question
A storage tank at STP contains 26.5 kg of nitrogen (N₂). What is the volume of the tank?
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Textbook Question
A sealed metal container contains a gas at 30.0°C and absolute pressure 1.00 atm. To what temperature must the gas be heated for the pressure to double to 2.00 atm? (Ignore expansion of the container.)
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