192 CONFORMATIONAL ENTROPY OF BIOMOLECULES: BEYOND THE QUASI-HARMONIC APPROXIMATION JORGE NUMATA1

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• Thermodynamic entropy
• Physics
• Mechanics
• Entropy
• Von Neumann entropy
• Ideal gas
• Conformational entropy
• Partition function
• Principle of maximum entropy
• Molecular dynamics
• Entropy in thermodynamics and information theory
• Negentropy

Temperature, Expansion, Ideal Gas Law Physics 1425 Lecture 30 Michael Fowler, UVa Everything’s Made of Atoms

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Worksheet for Exploration 20.3: Ideal Gas Law The relationship between the number of particles in a gas, the volume of the container holding the gas, the pressure of the gas, and the temperature of the gas is described b

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1 Ph 12c Homework Assignment No. 4 Due: 5pm, Thursday, 2 May 2013 Do Problem 12 in Chapter 5 plus these additional problems:

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• Statistical mechanics
• Physical quantities
• State functions
• Ideal gas
• Gas in a box
• Gas
• Molecular diffusion
• Chemical potential
• Quantum concentration
• Physics
• Thermodynamics
• Chemistry

Ph 12C Final Exam Due: Friday, 14 June 2013, 5pm • This exam is to be taken in one continuous time interval not to exceed 4 hours, beginning when you first open the exam. (You may take one 15 minute break during the ex

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• Critical phenomena
• Phase transitions
• Physical quantities
• Renormalization group
• Temperature
• Ideal gas
• Heat capacity
• Water
• Critical point
• Physics
• Chemistry
• Thermodynamics

PHYSICAL REVIEW X 5, Ensemble Theory for Stealthy Hyperuniform Disordered Ground States S. Torquato* Department of Chemistry, Department of Physics, Princeton Institute for the Science and Technology of Ma

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• Statistical mechanics
• Structure factor
• Temperature
• Fourier transform
• Ideal gas
• Physics
• Thermodynamics
• Radial distribution function

Worksheet for Exploration 20.2: Partial Pressure of Gases In this animation N = nR (i.e., kB = 1). This, then, gives the ideal gas law as PV = NT. Two particles of different masses are in the same container. The total pr

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• Temperature
• Ideal gas
• Van der Waals equation
• Physics
• Thermodynamics
• Gas

Potential energy of atmospheric water vapor and the air motions induced by water vapor condensation on different spatial scales A. M. Makarieva1 and V. G. Gorshkov1 1

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• Atmospheric sciences
• Ideal gas law
• Water vapor
• Troposphere
• Vapor pressure
• Lapse rate
• Equation of state
• Water
• Condensation
• Atmospheric thermodynamics
• Thermodynamics
• Physics

Worksheet for Exploration 20.5: PV Diagrams and Work Ideal gas law: PV = nRT. In this animation N = nR (i.e., kB = 1). This, then, gives the ideal gas law as PV = NT. The work done during a thermodynamic process depends

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Worksheet for Exploration 20.1: Kinetic Theory, Microscopic and Macroscopic Connections In this animation N = nR (i.e., kB = 1). This, then, gives the ideal gas law as PV = NT. The average values shown, < >, are calculat

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