ATMOSPHERIC & OCEANIC SCIENCES 100

WEATHER AND CLIMATE (3 credits)

LECTURE 1 for Spring 1999

COURSE SYLLABUS

As of 16 November 1998

This outline is subject to change! So please refer back to this page occasionally.

LECTURES: 10:20-11:35 AM, MTWR; Rm. 811 Meteorology and Space Science Bldg.

INSTRUCTOR: Dr. Edward J. Hopkins

OFFICE: Rm. 1407 Meteorology and Space Science (608/262-1605 or 262-2828)

OFFICE HOURS: 1:00-2:00 PM, MTWR (or by appointment)

e-mail: hopkins@meteor.wisc.edu

INTRODUCTION

This introductory level course explores our earth's atmospheric environment. Emphasis will be placed upon providing you with a deeper appreciation of the various atmospheric phenomena that you may witness. You will become acquainted with some of the more important economic and social aspects of weather and climate. You will see how meteorology has evolved as a science with the development of various tools and concepts that permit rational description of various weather and climatic phenomena.

Some knowledge of the basic concepts of high school algebra is assumed. Since meteorology is a visual science, slides, films and current weather discussions will be routinely used. The materials covered in class will be stressed on the three examinations, with the text serving as a background resource. Therefore, attendance at each of the TWO regularly scheduled lectures per week (75 minutes each) is strongly recommended. Several homework assignments, will be given to help you prepare for the examinations; these homework assignments represent 15% of your course grade. If you are having trouble with the course, please ask your instructor for help as soon as possible.

COURSE OBJECTIVES

By the end of the course you should be able to:

Interpret the weather maps appearing on television, or in the newspaper, locating broad based air pressure, wind, cloud and temperature patterns.
Correctly use and explain selected fundamental terminology employed by meteorologists (e.g., dewpoint, barometric pressure, cyclones, etc.).
Identify various weather instruments currently used to measure atmospheric properties.
Explain why the planet Earth is unique in our solar system.
Distinguish the characteristic sizes of various atmospheric systems.
Explain, in general terms, the reasons for atmospheric motions.
Appreciate the problems facing the atmospheric scientist.
Identify some of the fundamental conceptual models developed by meteorologists to explain atmospheric processes.
Make simple, short term weather forecasts for your location, based upon your observation of the sequence of winds, clouds and changes in air temperature and pressure.
Distinguish the various severe weather phenomena and appropriate advisories, watches and warnings that are issued for your safety.
Locate sources of climatological information for your locale.

TENTATIVE GRADING SCHEME:

Your course grade depends upon the numerical point distribution accumulated from each of the following items, using the approximate weighting factors:

6 Weeks Exam (Thursday, 1999)

12 Weeks Exam (Thursday, 1999)

Final Exam (Thursday, 1999)

Homework

25%

35%

15%

Total

100%

REQUIRED TEXT:

Moran, J.M. and M.D. Morgan, 1997: Meteorology: The Atmosphere and the Science of Weather. (5th ed.) Prentice Hall. Upper Saddle River, NJ. 530 pp. (ISBN 0-13-266701-0)

COURSE OUTLINE & Link to Lecture Notes

Last revision: 16 November 1998

Produced by Edward J. Hopkins, Ph.D.

Department of Atmospheric and Oceanic Sciences

University of Wisconsin-Madison, Madison, WI 53706

hopkins@meteor.wisc.edu

ATM OCN 100 Home Page

AOS Dept. Home Page

URL: hopkins/aos100/s99syl.htm