?

Title	?
# of Words	2562
# of Pages (250 words per page double spaced)	10.25

?

Word Count: 2711

Chemistry Independent Study: Gas Laws

Fahed Abu-Ghazaleh
Chemistry IB20
Miss. Tillier
Friday, June 6th, 1999
Gas Laws

Since the days of Aristotle, all substances have been classified into one of three physical states. A substance having a fixed volume and shape is a solid. A substance, which has a fixed volume but not a fixed shape, is a liquid; liquids assume the shape of their container but do not necessarily fill it. A substance having neither a fixed shape nor a fixed volume is a gas; gases assume both the shape and the volume of their container. The structures of gases, and their behavior, are simpler than the structures and behavior of the two condensed phases, the solids and the liquids

Pressure and the Law of Boyle

Quantitative measurements on gases were first made in a rational manner by the English chemist Robert Boyle (1627 - 1691). The instruments used by Boyle to measure pressure were two: the manometer, which measures differences in pressure, and the barometer, which measures the total pressure of the atmosphere.

A manometer is simply a bent piece of tubing, preferably glass with one end closed.

When the liquid level in both arms is the same, the pressure of the sample of gas inside the closed end must equal the pressure of the external atmosphere since the downward force on the two columns of liquid is then equal. When the liquid levels are unequal, the pressures must differ. The difference in pressure can be measured in units of length of the vertical column of liquid. The mm Hg, or its modern version the torr, originated in this use of the manometer. Mercury is particularly convenient for use in manometers (and barometers) because at room temperature it has low vapor pressure, does not wet glass, and has a high density. Other liquids such as linseed oil or water have also been used in manometers.

The barometer is a device for measuring the total pressure of the atmosphere. A primitive barometer can easily be constructed by taking a glass tube about a meter long, sealing one end, filling the tube completely with mercury, placing your thumb firmly over the open end, and carefully inverting the tube into an open dish filled with mercury. The mercury will fall to a height independent of the diameter of the tube and a vacuum will be created above it.

The height of the mercury column will be the height which the atmospheric pressure can support. The standard atmospheric pressure, one atmosphere (atm), is 760 mm Hg but the actual atmospheric pressure varies depending upon altitude and local weather conditions. For this reason barometers can be used to help predict the weather. A falling barometer indicates the arrival of a low-pressure air system, which often means stormy weather. A rising barometer indicates the arrival of a high pressure air system, and that often means clear weather.

While mercury is again the most convenient liquid for use in barometers it is by no means the only liquid which can be used. Preparation of a water barometer and many of the early barometers did use water.

With the manometer and barometer used together, the actual pressure of a sample of gas can be measured. Combining the barometer reading of atmospheric pressure with the manometer reading of pressure difference gives the actual pressure. If the manometer is as shown on the left-hand side of the Figure below, then p2 = p (atmospheric) + p1, while if the manometer is as shown on the left-hand side of the Figure below, then p2 = p (atmospheric) - p1. (McQuarrie and Rock, Page 161)

Units of Pressure

Units of pressure were originally all based on the length of the column of liquid, usually mercury, supported in a manometer or barometer. By far the most common of these units was the mm Hg, although inches of mercury were also used in English-speaking countries. However, the modern SI unit of pressure is derived from the fundamental units of the SI. Pressure is force per unit area, and force is the product of mass times acceleration, so the SI unit of pressure...This is ONLY a preview of the article. If you would like to view the entire document, you must subscribe to Electronic References. Please register below now!

Get This Full Article After Registration

When you subscribe to Electronic References, you get complete access to the meta-collection of full text articles and papers written by researchers and students spanning the last 5 years. For $19.95 a month, you will receive unlimited access and the ability to expand your research opportunities and knowledge.
This subscription package includes:

24-hours-a-day, 7 days a week unlimited access on any computer with Internet access

Complete access to all 60,000 articles, essays, and research papers

Ability to view, save, print and download any document you find

Ability to browse through perfectly arranged catalog of articles

Superior search and relevancy ranking techniques using our optimalized search engine

Instant access to the online database after registration

You can pay by credit card or checking account. You get instant access after registration:

1 Month ($ 19.95)

3 Months ($ 29.95)

6 Months ($ 39.95)

You will be billed $19.95 every 30 days or $29.95 every 90 days (recurring billing) starting on the day you subscribe.
Your credit card or checking account will automatically be renewed for your convenience until you cancel.

Home | Register | Login | Logout | Privacy Policy | Disclaimer | Help | FAQ | Contact Us | Cancel Subscription
Copyright 1998-2007 Electronic References. Electronic References is designed only to assist students and researchers in the preparation of their own work. Anybody who use our services are responsible not only for writing their own papers, but also for citing Electronic References as a source when doing so. By accessing and using this page you agree to the Disclaimer.