Announcement 
 Please Post  
Nov 2 2013 
Introduction to continuum physics  PHYS 4421 / 8803
INSTRUCTOR: Predrag Cvitanović
INSTRUCTOR HOMEPAGE: ChaosBook.org/~predrag
TIME: Spring semester 2013,
TT 12:05pm  1:25pm
ROOM: Howey S204
EXPECTED ENROLLMENT: 15
 COURSE DESCRIPTION:
 Continuum physics describes the macroscopic physical world around us. The enormous progress of quantum physics in the 20th century has almost eliminated macroscopic phenomena from the core physics curriculum. Nonetheless, research in engineering, geophysics, and biology demands increased mastery of its methodology.

 The course aims to redress the balance by offering a modern, unified introduction to the basic concepts and phenomenology of continuous macroscopic systems. It presupposes a knowledge of Newtonian mechanics
and differential equations, with the equations
of continuum mechanics derived from Newtonian particle mechanics.
The basic concept is the concept of stress, valid for all continuous
materials.
The course proceeds along the two tracks,
the two extremes in the world of continua:
elastic solids (Hooke) and viscous (Newtonian) fluids.
Emphasis is placed equally on intuition and formalism with
the many examples from geophysics, astrophysics and other fields.

 The course is intended for physics, biology, mathematics, chemistry, engineering and geophysics advanced undergraduates and starting graduate students. The mathematical prerequisites are modest and are developed further as the need arises.

 PREREQUISITES:
 A basic background in calculus, ordinary differential equations and classical mechanics.
Weekly homework assignments require both analytic
and numerical work, so familiarity with a programming language is a
plus.
 TEACHING METHOD:
 Three lectures
and a homework problem set per week.
 TEXTBOOK:
 B.
Lautrup,
Physics of Continuous Matter,
Exotic and Everyday Phenomena in the Macroscopic World
 START:

Tuesday Jan 8, 2013, 12:05pm in Howey S204,
with detailed schedule and reading assignments posted on
 COURSE HOME PAGE:
 ChaosBook.org/~predrag/courses/PHYS442113