Earth, Body, and Mind: Changes in Scientific Thought
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Purpose and Overview of the Course
The purpose of this course is to provide you with an introduction
to science, scientific/critical thinking,
and the scientific method. It is a course
neither in a particular science nor exclusively in the history or
philosophy of science. Rather, the course is designed to
introduce you to the ways scientists have come to understand the
world around them, and the way they express and solve problems.
Scientists work with models to help them understand the puzzles
of nature and to allow them to make predictions about natural
phenomena. Scientific models serve not only to describe nature in
terms understandable to scientists, but also to offer theoretical
frameworks that permit scientists to anticipate how nature will
respond when conditions are varied. Scientists do not work in a
social and cultural vacuum. The models they construct are
influenced by the thinking and attitudes of the non-scientific
community. In turn, scientific thinking and models influence the
social and political theories of their time, and are reflected in
the arts and literature.
HWC 201 is designed to introduce you to the language, methods, and limitations of science. You must be prepared to give up many notions you now have about science and scientists. Be prepared to explore the relatively ordered world of "normal science" but also the many blind alleys, wrong turns, and false starts that characterize both "normal" and "revolutionary" science. At the same time, be willing to give careful attention to the important connections and interactions between the sciences and the humanities.
Philosophical Basis of Science
Science is based on the mechanistic or naturalistic
viewpointthat all events of the universe can be described
or explained by natural laws. If scientists do not understand
something, they do not resort to supernatural
explanationsrather they continue to look for natural
explanations that can be tested, for which evidence can be
obtained. For scientists, the bottom line is evidence that can be
observed and confirmed by other observersthis mode of
discovering and validating knowledge can be duplicated and
achieved by anyone who practices scientific/critical thinking.
This perspective is in contrast to the vitalistic viewpoint (the
doctrine of the supernatural)that the universe is
controlled by supernatural powers called spirits, gods, or vital
forces. Knowledge obtained through this approach is not supported
by evidence, cannot be tested, and is therefore outside the realm
of science. While such knowledge may be of great importance to
individuals, it cannot be confirmed by other unbiased observers.
These different philosophical viewpoints have radically different
practical consequences. For example, medical scientists have
attempted to find natural causes for disease (e.g., bacteria,
viruses), while those utilizing a vitalistic viewpoint have often
attributed illness to such causes as curses, spells, divine
retribution, sin, malignant influences, the will of a god, or
possession by evil spirits. The success of modern medicine is a
potent reminder of the practical power of the mechanistic
approach and the methodology used by science.
Definitions of Science and the Scientific Method1
Science (word derived from scientia, Latin for knowledge) is not
merely a collection of facts, concepts, and useful ideas about
nature, or even the systematic investigation of nature, although
both are common definitions of science. Science is a
method of investigating naturea way of knowing about
naturethat discovers reliable knowledge about it.
Another definition of science is the careful,
disciplined, logical search for knowledge about any and all
aspects of the universe, obtained by examination of the best
available evidence and always subject to correction and
improvement upon discovery of better evidence.2 The
method used to justify scientific knowledge, and thus make it
reliable, is called the scientific method. It is the way
scientists investigate the world. There are various ways of
defining this method. For examplethe scientific method can
be defined as the process by which scientists, collectively
and over time, endeavor to construct an accurate (that is,
reliable, consistent and non-arbitrary) representation of the
world.3 Another short definition that shows some of the basic
steps of the method is observe-hypothesize-test.4 While there is no one
exact method by which all scientists approach their work and no
single agreed upon definition, for our purposes we define the
scientific method as the methodology or set of procedures
used by scientists to obtain reliable knowledge about nature,
using observation (the gathering of empirical evidence),
hypothesizing (developing possible explanations), and testing (of
the hypothesis or its predictionsi.e. experimentation) and
which is based on logical reasoning and a skeptical, continually
questioning attitude. A scientist does not decide how
things should be or how he would like them to be, rather he
observes how things actually are and bases his conclusions on
evidence. This reliance on evidence is a
critical distinction for the scientific method. Over the course
of the semester you will be learning about this method and seeing
examples of its application.
Science is a process for producing knowledge, a method
of investigating nature that produces knowledge of a particular
type. There are other methods of discovering and learning
knowledge about nature, but science is the only method that
results in the acquisition of reliable knowledge.
Reliable knowledge is knowledge that has a high probability of
being true because its veracity has been justified by a reliable
method. Reliable knowledge is sometimes called justified true
belief, to distinguish it from belief that is false and
unjustified or even true but unjustified. The important
distinction that should be made is whether one's knowledge or
beliefs are true and, if true, are justifiably true. Every person
has knowledge or beliefs, but not all of each person's knowledge
is reliably true and justified. In fact, most individuals believe
in things that are untrue or unjustified or both: most people
possess a lot of unreliable knowledge and, what's worse, they act
on that knowledge! Other ways of knowing, and there are many in
addition to science (e.g., intuition, believing what other tell
you, listing to authority figures, divine revelation, pure
logic), are not reliable because their discovered knowledge is
not justified. Science is a method that allows a person to
possess, with the highest degree of certainty possible, reliable
knowledge about nature.
The Three Central Components of Scientific/Critical Thinking1
The scientific method is practiced within a context of scientific/critical thinking, and scientific/critical thinking is based on three things:
1. Empiricism: The Use of Empirical Evidence
Empirical evidence is evidence that one can see, hear, touch,
taste, or smell; it is evidence that is susceptible to one's
senses (or to the extension of ones sensese.g.,
microscope or telescope). Empirical evidence is important because
it is evidence that others besides yourself can experience, and
it is repeatable, so empirical evidence can be checked by
yourself and others after knowledge claims are made by an
individual. Empirical evidence is the only type of evidence that
possesses these attributes and is therefore the only type used by
scientists and critical thinkers to make vital decisions and
reach sound conclusions.
2. Rationalism: The Practice of Logical Reasoning
Scientists and critical thinkers always use logical reasoning.
Rationalism is the belief that knowledge and truth are
ascertained by rational thought and not by divine or supernatural
revelation.
3. Skepticism: Possessing a Skeptical Attitude
The final key idea in science and critical thinking is skepticism, the constant questioning of your beliefs and conclusions. Critical thinkers need to develop a "baloney detector" to protect them from erroneous ideas, pseudoscience, etc.
1Modified from Schafersman, S.D.
1997. An Introduction to Science, Scientific Thinking and the
Scientific Method.
http://pbisotopes.ess.sunysb.edu/esp/files/scientific-method.html
or http://www.freeinquiry.com/intro-to-sci.html. Accessed Jan
2004.
2J. Randi. 1998. In J. Wudka. The Scientific Method.
http://phyun5.ucr.edu/~wudka/Physics7/Notes_www/node5.html.
Accessed Jan 2004.
3F. Wolfs. 2004. Introduction to the Scientific
Method.
http://teacher.nsrl.rochester.edu/phy_labs/AppendixE/AppendixE.html#Heading9.
Accessed Jan 2004.
4W.J. Miller. 1998. Scientific Method.
http://www.ringneckdove.com/Wilmer's%20WebPage/SCIMETH.htm.
Accessed Jan 2004.
All material on this page copyright 2014, George M. Diggs, Jr. & Kerry G. Brock