Increasing order of rate of effusion for the molecules in the given reaction should be given. Concept Introduction: Kinetic-molecular theory of gases: Properties of gases are different from solids and liquids. When pressure is applied to gases, they are easily compressed to smaller volume and they have low densities. These properties can be explained by a theory called kinetic-molecular theory. The four assumptions of this theory are given below: Gases are made up of particles like atoms or molecules which randomly move and there will be no attractive forces between them. Comparing the space occupied by the gas particles and the space between particles, the former is much smaller than the latter. The average kinetic energy of gas particles and the Kelvin temperature is proportional. There is an elastic collision between gas particles or with the wall of their container and thus no energy is lost during collision and total kinetic energy of the particles is constant. Kinetic energy: The kinetic energy for the object is the energy of the object due to its motion and it is given by the following formula, E k = 1 2 mv 2 Where, m is the mass and v is the velocity of the moving particle.

Question

Want to see the full answer?

Answer 1

Question

Chapter 8, Problem 64QRT

Interpretation Introduction

Interpretation:

Increasing order of rate of effusion for the molecules in the given reaction should be given.

Concept Introduction:

Kinetic-molecular theory of gases:

Properties of gases are different from solids and liquids. When pressure is applied to gases, they are easily compressed to smaller volume and they have low densities. These properties can be explained by a theory called kinetic-molecular theory.

The four assumptions of this theory are given below:

Gases are made up of particles like atoms or molecules which randomly move and there will be no attractive forces between them.

Comparing the space occupied by the gas particles and the space between particles, the former is much smaller than the latter.

The average kinetic energy of gas particles and the Kelvin temperature is proportional.

There is an elastic collision between gas particles or with the wall of their container and thus no energy is lost during collision and total kinetic energy of the particles is constant.

Kinetic energy: The kinetic energy for the object is the energy of the object due to its motion and it is given by the following formula,

Ek =12mv2

Where, m is the mass and v is the velocity of the moving particle.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

4. Calculate the wavelength of a photon needed to excite a transition between neighbouring energy levels of a harmonic oscillator of effective mass equal to that of an oxygen atom and with a force constant of 544 N m¹.

2. Identify the strongest type of intermolecular force that exists between each pair of compounds: a. Ammonium chloride / H₂O b. OH C. d.

REPORT FOR EXPERIMENT 9 (continued) NAME F. Solubility vs. Temperature; Saturated and Unsaturated Solutions Data Table: Circle the choices which best describe your observations. NaCl 1.0 g +5 mL water 1.0 g +5 mL water +1.4 g dissolved completely? yes/no saturated or unsaturated? dissolved completely? yes/no saturated or unsaturated? 2.4 g +5 mL water +heat dissolved completely? yes/no saturated or unsaturated? 2.4 g +5 mL water after cooling dissolved completely? yes/no saturated or unsaturated? NHC dissolved completely? yes/no saturated or unsaturated? dissolved completely? yes/no saturated or unsaturated? dissolved completely? yes/no saturated or unsaturated? dissolved completely? yes/no saturated or unsaturated? G. Ionic Reactions in Solution 1. Write the word and formula equations representing the chemical reaction that occurred between the barium chloride solution, BaCl,(aq), and the sodium sulfate solution, Na SO (aq). Word Equation: Formula Equation: 2. (a) Which of the…