Matter kinetic-molecular theory

Matter, state of matter, kinetic molecular theory, gases, Uquids, solids... 

Kinetic molecular theory first made a name for itself when scientists attempted to explain and predict the properties of gases and, in particular, how those properties changed with varying temperature and pressure. The idea emerged that the particles of matter within a gas (atoms or molecules) undergo a serious amount of motion as a result of the kinetic energy within them. 

The Kinetic Molecular Theory of matter attempts to describe all the states of matter and the conversion between the states by considering the structures of molecules comprising matter and how those molecules interact. There are three commonly encountered states of matter solids, liquids, and gases. There are a few other states of matter, such as plasmas, but these are encountered only under extremely high energy conditions. Therefore, we will restrict our conversation to the more mundane states. 

Rationalize the defining characteristics of the states of matter in terms of intermolecular forces and the kinetic molecular theory of matter. 

This chapter is the first of two devoted to specific states of matter, and in it you will focus your attention on the gaseous state of matter. However, all of the states will be described within a larger framework that looks at the state of matter as a series of interrelated factors, including kinetic energy (or temperature), pressure, and intermolecular forces. Gases are usually described by a series of postulates known as kinetic molecular theory, which constitute the ideal gas law. To begin the chapter, you will look at a historical development of the ideal gas law, during which you will review some of the equations used to create the ideal gas law. 

Although the kinetic-molecular theory was developed to explain the behavior of gases, the model can be applied to liquids and solids. When applying the kinetic-molecular theory to these states of matter, you must consider the forces of attraction between particles as well as their energy of motion. 

I See the Saunders Interactive General Chemistry CD-ROM, Screen 1 3.2, Phases of Matter the Kinetic-Molecular Theory. This screen contains an animated version of Figure 13-1. 

COMPETENCY 15.0 APPLY KNOWLEDGE OF THE KINETIC MOLECULAR THEORY TO THE STATES OF MATTER, PHASE CHANGES, AND THE GAS LAWS. 

The Kinetic Molecular Theory provides a simple model of the nature of matter. It has the following components ... 

LIQUIDS OR SOLIDS IN MANY WAYS. MOLECULAR MOTION IN GASES IS TOTALLY RANDOM, AND THE FORCES OF ATTRACTION BETWEEN GAS MOLECULES ARE SO SMALL THAT EACH MOLECULE MOVES EREELY AND ESSENTIALLY INDEPENDENTLY OF OTHER MOLECULES. SUBJECTED TO CHANGES IN TEMPERATURE AND PRESSURE, GASES BEHAVE MUCH MORE PREDICTABLY THAN DO SOLIDS AND LIQUIDS. ThE LAWS THAT GOVERN THIS BEHAVIOR HAVE PLAYED AN IMPORTANT ROLE IN THE DEVELOPMENT OF THE ATOMIC THEORY OF MATTER AND THE KINETIC MOLECULAR THEORY OF GASES. 

We can apply the kinetic-molecular theory quantitatively to phase changes by means of a heating-cooling curve, which shows the changes that occur when heat is added to or removed from a particular sample of matter at a constant rate. As an example, the cooling process is depicted in Figure 12.3 for a 2.50-mol sample of gaseous water in a closed container, with the pressure kept at 1 atm and... 

The ideas presented above are expressed in a general theory of the physical properties of matter called the kinetic-molecular theory. The theory is based on the following propositions ... 

The particulate nature of matter is fundamental to almost every topic in chemistry. It involves the particle theory (often now called the kinetic molecular theory), which is the basis of explanations of atomic structure, bonding, molecules, much of solution chemistry and chemical reactions, equilibrium and chemical energetics. Because bonding (which involves atomic structure) and chemical reactions are covered in other chapters in this book, this chapter restricts itself to the particle theory of matter. Where useful, interesting aspects outside the particle theory are mentioned but the focus is fixed on the notion that all matter is composed of discrete, energetic particles that are separated by space. 

The idea that matter consists of moving particles (molecules, atoms or ions) is the basis of the kinetic molecular theory (or simply, kinetic theory). Its two main assumptions are ... 

The answer is yes and we will digress a bit at this point to introduce these concepts as we did earlier in the chapter. The temperature and pressure conditions that govern physico-chemical behavior of liquids are defined in terms of thermodynamics. The Gibbs Phase Rule is a direct outcome of the physical chemistry of changes in the state of matter. The phase rule helps to interpret the physico-chemical behavior of solids, liquids, and gases within the framework of the kinetic-molecular theory of phase equilibria. 

Gases, the subject of this chapter, are simpler than liquids and solids in many ways. Molecular motion in gases is totally random, and the forces of attraction between gas molecules are so small that each molecule moves freely and essentially independently of other molecules. Subjected to changes in temperature and pressure, it is easier to predict the behavior of gases. The laws that govern this behavior have played an important role in the development of the atomic theory of matter and the kinetic molecular theory of gases. 

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