This lecture note
covers most of the core aspects of environmental science, focusing on pollution
and waste management: air pollution, water pollution, and treatment and methods
of water treatment both as a theoretical background and real-life insights. This
includes oil contamination in both freshwater and marine waters, where a
discussion of effects and how to treat oil spills comes into play. A section on
Hazardous Waste discusses sources, disposal methods, and impact on the
environment. That's helpful for a student or environmental scientist interested
in discussing pollution problems but also possible solutions.
This
lecture note is an introduction to key environmental chemistry topics. It begins
with the composition of the atmosphere and pollutants responsible for
environmental degradation. The topics discussed include the Chapman cycle,
protection of the ozone layer, and the seasonal depletion of ozone in
Antarctica. Principles of combustion, alternative fuels, and the role of water
in environmental sustainability are also covered in it. This occupies a good
part of the note-writing; acid rain, and its impact on the environment. It is
basically important reading to those students who wish to link chemistry with
environmental protection.
This note tackles the
very complex issue of the relationship between environmental chemicals and human
health. It explores epidemiological approaches to disease causation,
biostatistical methods for evaluating chemical exposure, and the effects of
chemical reactions within the body. The content covers risk assessment
techniques used in the U.S. for regulatory decision-making and public health
policy. It is a must for students in the fields of toxicology, environmental
health, and public health: it offers a challenging examination of interactions
between environmental chemicals and human biology and the approaches used to
evaluate and counteract their risks.
Author(s): Prof.
James Sherley, Dr. Laura Green and Prof. Steven Tannenbaum