CHAPTER 5 | GRAVITY 89
Particles move according to three rules of motion and attract
each other with a force called gravity. Th ese motions are predict-
able, and that makes the universe a vast machine based on a few
simple rules. It is complex only in that it contains a vast numberPrincipia changed astronomy by ushering in a new age. No
longer did people have to appeal to the whim of the gods to
explain things in the heavens. No longer did they speculate on
why the planets wander across the sky. After Principia astrono-
mers understood that the motions of the
heavenly bodies are governed by simple, uni-
versal rules that describe the motions of
everything from orbiting planets to falling
apples. Suddenly the universe was under-
standable in simple terms, and astronomers
could accurately predict future planetary
motions (How Do We Know? 5-2).
Principia also changed science in gen-
eral. Th e works of Copernicus and Kepler
had been mathematical, but no book before
had so clearly demonstrated the power of
mathematics as a language of precision.
Newton’s arguments in Principia were so
powerful an illustration of the quantitative
study of nature that scientists around the
world adopted mathematics as their most
powerful tool.
Also, Principia changed the way people
thought about nature. Newton showed that
the rules that govern the universe are simple.The So-Called Scientifi c Method
How are the predictions of a hypothesis
useful in science? (Note the careful use of
language here, to distinguish a tentative
hypothesis from a theory that is well con-
fi rmed.) Scientifi c hypotheses face in two direc-
tions. They look back into the past and explain
phenomena previously observed. For example,
Newton’s laws of motion and gravity explained
observations of the movements of the planets
made over many centuries. But hypotheses also
look forward in that they make predictions about
what you should fi nd as you explore further. For
example, Newton’s laws allowed astronomers
to calculate the orbits of comets, predict their
return, and eventually understand their origin.
Scientifi c predictions are important in two
ways. First, if a prediction of a hypothesis is
confi rmed, scientists gain confi dence that the
hypothesis is a true description of nature. But
predictions are important for a second reason.
They can point the way to unexplored avenues
of knowledge.
Particle physics is a fi eld in which pre-
dictions have played a key role in directingresearch. In the early 1970s, physicists
proposed a hypothesis about the fundamen-
tal forces and particles in atoms called the
Standard Model. This hypothesis explained
what scientists had already observed in experi-
ments, but it also predicted the existence of
particles that hadn’t yet been observed. To
test the hypothesis, scientists focused their
efforts on building more and more powerful
particle accelerators in the hopes of detecting
the predicted particles.
A number of these particles have since
been discovered, and they do match the
characteristics predicted by the Standard
Model, further confi rming the hypothesis. One
predicted particle, the Higgs boson, has not
yet been found, as of this writing, but an even
larger accelerator may allow its detection. Will
the Higgs boson be found, or will someone
come up with a better hypothesis? This is only
one of many cliff-hangers in modern science.
You learned in an earlier chapter that a
hypothesis that has passed many tests and
made successful predictions can “graduate” toPhysicists build huge accelerators to search for
sub-atomic particles predicted by their theories.
(Brookhaven National Laboratory)being considered a theory. As you read about
any scientifi c hypothesis or theory, think
about both what it can explain and what it
can predict.5-2 Testing a Hypothesis by Prediction
■ Figure 5-9
Newton, working from the discoveries of Galileo and Kepler, derived three laws of motion and the
principle of mutual gravitation. He and some of his discoveries were honored on this old English
pound note. Notice the diagram of orbital motion in the background and the open copy of Principia
in Newton’s hands.