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Science Chemistry EBK PHYSICAL CHEMISTRY

The graphs of g x versus v x and G ( v ) versus v are to be compared and the similarities and differences in the graphs are to be stated. Concept introduction: The probability distribution function of the velocities of the gas molecules in each dimension is given by g x ( v x ) , g y ( v y ) and g z ( v z ) . This is a vector quantity. This probability function in the range of − ∞ to + ∞ is represented by, ∫ − ∞ + ∞ g x ( v x ) d v x = 1 The Maxwell-Boltzmann distribution is given by, G ( v ) d v = 4 π ( m 2 π k T ) 3 / 2 v 2 ⋅ e − m v 2 / 2 k T d v This distribution depends on the mass of the particle and absolute temperature.

The graphs of g x versus v x and G ( v ) versus v are to be compared and the similarities and differences in the graphs are to be stated. Concept introduction: The probability distribution function of the velocities of the gas molecules in each dimension is given by g x ( v x ) , g y ( v y ) and g z ( v z ) . This is a vector quantity. This probability function in the range of − ∞ to + ∞ is represented by, ∫ − ∞ + ∞ g x ( v x ) d v x = 1 The Maxwell-Boltzmann distribution is given by, G ( v ) d v = 4 π ( m 2 π k T ) 3 / 2 v 2 ⋅ e − m v 2 / 2 k T d v This distribution depends on the mass of the particle and absolute temperature.

Solution Summary: The author explains that the graphs of g_x versus vs and G(v) are to be compared and the

EBK PHYSICAL CHEMISTRY

EBK PHYSICAL CHEMISTRY

2nd Edition

ISBN: 8220100477560

Author: Ball

Publisher: Cengage Learning US

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Chapter 19, Problem 19.72E

Interpretation Introduction

Interpretation:

The graphs of gx versus vx and G(v) versus v are to be compared and the similarities and differences in the graphs are to be stated.

Concept introduction:

The probability distribution function of the velocities of the gas molecules in each dimension is given by gx(vx), gy(vy) and gz(vz). This is a vector quantity. This probability function in the range of −∞ to +∞ is represented by,

∫−∞+∞gx(vx)dvx=1

The Maxwell-Boltzmann distribution is given by,

G(v)dv=4π(m2πkT)3/2v2⋅e−mv2/2kTdv

This distribution depends on the mass of the particle and absolute temperature.

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Chapter 19, Problem 19.71E

Chapter 19, Problem 19.73E

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19.78 Write the products of the following sequences of reactions. Refer to your reaction road- maps to see how the combined reactions allow you to "navigate" between the different functional groups. Note that you will need your old Chapters 6-11 and Chapters 15-18 roadmaps along with your new Chapter 19 roadmap for these. (a) 1. BHS 2. H₂O₂ 3. H₂CrO4 4. SOCI₂ (b) 1. Cl₂/hv 2. KOLBU 3. H₂O, catalytic H₂SO4 4. H₂CrO4 Reaction Roadmap An alkene 5. EtOH 6.0.5 Equiv. NaOEt/EtOH 7. Mild H₂O An alkane 1.0 2. (CH3)₂S 3. H₂CrO (d) (c) 4. Excess EtOH, catalytic H₂SO OH 4. Mild H₂O* 5.0.5 Equiv. NaOEt/EtOH An alkene 6. Mild H₂O* A carboxylic acid 7. Mild H₂O* 1. SOC₁₂ 2. EtOH 3.0.5 Equiv. NaOEt/E:OH 5.1.0 Equiv. NaOEt 6. NH₂ (e) 1. 0.5 Equiv. NaOEt/EtOH 2. Mild H₂O* Br (f) i H An aldehyde 1. Catalytic NaOE/EtOH 2. H₂O*, heat 3. (CH,CH₂)₂Culi 4. Mild H₂O* 5.1.0 Equiv. LDA Br An ester 4. NaOH, H₂O 5. Mild H₂O* 6. Heat 7. MgBr 8. Mild H₂O* 7. Mild H₂O+

Chapter 19 Solutions

EBK PHYSICAL CHEMISTRY

Ch. 19 - Prob. 19.1E Ch. 19 - What is the kinetic energy of a single atom of...Ch. 19 - Prob. 19.3E Ch. 19 - One mole of Ne atoms confined to a volume of 10.0L...Ch. 19 - Prob. 19.5E Ch. 19 - Prob. 19.6E Ch. 19 - Prob. 19.7E Ch. 19 - Prob. 19.8E Ch. 19 - Prob. 19.9E Ch. 19 - Prob. 19.10E

Ch. 19 - Prob. 19.11E Ch. 19 - Interstellar space can be considered as having...Ch. 19 - Prob. 19.13E Ch. 19 - SF6 is a gas at room temperature, 295K. What is...Ch. 19 - Prob. 19.15E Ch. 19 - Prob. 19.16E Ch. 19 - If relativistic effects were ignored, what...Ch. 19 - Prob. 19.18E Ch. 19 - Prob. 19.19E Ch. 19 - Prob. 19.20E Ch. 19 - Prob. 19.21E Ch. 19 - Prob. 19.22E Ch. 19 - Prob. 19.23E Ch. 19 - Prob. 19.24E Ch. 19 - What is the ratio of vrms/vmostprob for any gas at...Ch. 19 - Prob. 19.26E Ch. 19 - Prob. 19.27E Ch. 19 - Prob. 19.28E Ch. 19 - Prob. 19.29E Ch. 19 - Prob. 19.30E Ch. 19 - Prob. 19.31E Ch. 19 - The previous exercise gives an expression for...Ch. 19 - Prob. 19.33E Ch. 19 - Prob. 19.34E Ch. 19 - Prob. 19.35E Ch. 19 - What must the pressure be if the mean free path of...Ch. 19 - Prob. 19.37E Ch. 19 - Prob. 19.38E Ch. 19 - Prob. 19.39E Ch. 19 - Explain why the molecular diameter for argon, at...Ch. 19 - Prob. 19.41E Ch. 19 - Prob. 19.42E Ch. 19 - Prob. 19.43E Ch. 19 - A 1.00-mol sample of Xe gas is kept at a...Ch. 19 - Prob. 19.45E Ch. 19 - Prob. 19.46E Ch. 19 - Prob. 19.47E Ch. 19 - Prob. 19.48E Ch. 19 - Prob. 19.49E Ch. 19 - Consider a gas mixture containing equal...Ch. 19 - The inverse of the collision rate, 1/z, is the...Ch. 19 - Prob. 19.52E Ch. 19 - Prob. 19.53E Ch. 19 - Prob. 19.54E Ch. 19 - Prob. 19.55E Ch. 19 - Estimate the rate at which Hg effuses out a hole...Ch. 19 - Prob. 19.57E Ch. 19 - Knudsen effusion cells are used to determine vapor...Ch. 19 - Prob. 19.59E Ch. 19 - Prob. 19.60E Ch. 19 - Prob. 19.61E Ch. 19 - Prob. 19.62E Ch. 19 - Prob. 19.63E Ch. 19 - Prob. 19.64E Ch. 19 - Prob. 19.65E Ch. 19 - Prob. 19.66E Ch. 19 - Prob. 19.67E Ch. 19 - Prob. 19.68E Ch. 19 - Prob. 19.69E Ch. 19 - Prob. 19.70E Ch. 19 - Prob. 19.71E Ch. 19 - Prob. 19.72E Ch. 19 - Prob. 19.73E

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