Name_______________________________
PHY 1033 HIS 3931 IDH 331
Final exam
April 27, 2015
"On my honor, I have neither given nor received unauthorized aid in doing this assignment."
____________________________ (sign)
Part I (3 points each, 30 points total) Choose the best selection
1. Suppose “F” is the gravitational force between the Earth and the Sun. Now imagine that the
Sun were located 5 times farther away from the Earth. The gravitational force would then
become
a) F/25
b) F/5
c) F/10
d) 5F
e) 25F
2. An astronaut in the International Space Station feels weightless because
a)
b)
c)
d)
e)
Both the Station and the astronaut are accelerating toward Earth at the same rate
She is wearing a space suit
Earth’s gravity is almost zero at this location
the Moon’s gravity balances Earth’s gravity at this location
astronauts take anti-gravity pills every day
3. The kinetic energy and the potential energy of a swinging pendulum are at their respective
maximum values at what points of the pendulum’s swing?
a) lowest point; highest point
b) highest point; lowest point
c) both, at lowest point
d) both, at halfway point between high and low
e) both, at highest point
4. Suppose you look at the huge clock on the Big Ben Tower in London and it reads 12 noon.
If you could travel directly away from the clock at the speed of light and view it with a telescope,
it would
(a) run faster than usual.
(b) be frozen at 12 noon.
(c) run slower than usual.
(d) be contracted.
(e) be elongated.
5. Who first noticed that changing a magnetic field produced electricity?
a)
b)
c)
d)
e)
Faraday
Maxwell
Franklin
Ptolemy
Galileo
6. What measurement is Eratosthenes most famous for?
a)
b)
c)
d)
e)
Distance to sun
Weight of the Earth
Circumference of the Earth
Electric charge on a proton
Distance from Marathon to Athens
7. Who said, “If I have seen farther than others, it is because I have stood on the shoulders of
giants.”
a)
b)
c)
d)
e)
Newton
Galileo
Einstein
Napoleon
Goethe
8. Which of the following are some of Kepler’s laws of planetary motion?
a)
b)
c)
d)
e)
Planets move in ellipses with the sun at one focus
T2 ∝R3
a=mv2/R
b and c
a and b
9. Who argued that in order to run a heat engine you need reservoirs at two different
temperatures?
a) Boltzman
b) Watt
c) Leibniz
d) Lord Kelvin
e) Carnot
10. Bohr’s model was criticized by classical physicists, who believed
a)
b)
c)
d)
e)
protons and electrons both had positive charge
atoms did not exist
the proton should orbit the electron, not vice versa
electrons did not exist
the atom would collapse because the accelerating electrons would radiate energy
Part II (2 pts each, total 40 points) Answer the following briefly:
1. Supposing you were standing on a train car moving with speed v relative to the ground as
shown, and you shine a flashlight in the direction of travel. You observe, and announce that
the beam travels with speed c relative to you (the train car). An observer on the ground
who believes in Galilean relativity and the ether watches you travel by. What does he
expect the speed of the light beam to be? Now suppose the observer is Einstein. What does
he expect the speed of the light beam to be? Explain.
2.
Name two contexts in which Newton’s inverse square law was challenged and/or
vindicated in the eighteenth century.
3.
In Einstein’s thought experiment about holding a mirror in front of him while moving at the
speed of light, either he would see his reflection or he would not. Not seeing his reflection
violated a fundamental assumption of physics. What was that assumption and how would it
be violated?
4. The Age of Realism showed itself in numerous contexts in the second half of the nineteenth
century other than in physics. Name two such contexts and give an example of each.
5.
What was it that Osiander said in the Foreword to Copernicus’s book to try to make it more
acceptable?
6. The Greeks argued that all heavenly bodies must move in perfect circles at uniform velocity.
What two individuals were the first to violate/challenge
a. the notion that heavenly motion must involve geometrically perfect circles only
b. the uniformity (constant speed) of circular motion
7. There were several developments in the early twentieth century that, in utilizing Planck’s
notion of quantizing energy, confirmed its importance for physics. Name and explain
briefly one of these developments.
8.
Explain how Eddington verified Einstein’s theory that light bent in a gravitational field.
Use a sketch if helpful.
9. State at least one property of the ether, the medium that 19th century physicists thought
allowed light waves to propagate.
10. Many 19th century physicists believed generally in “determinism”. What, according to
Laplace, could a sufficiently great intellect do if given the positions and velocities of all the
particles in the universe at one time?
11. Is electricity or gravity more important for atomic physics and chemistry? Why?
12. How did Galileo use a thought experiment to disprove Aristotle’s contention that falling
bodies that are twice as heavy fall twice as fast? (Hint: he considered two objects tied
together)
13. Explain why we have seasons, using a diagram. What days mark the beginning of each
season in the northern hemisphere? Show where the Earth is on your diagram at the
beginning of each season.
14. Galileo used objects sliding and rolling on inclined planes for his experiments on motion to
refute Aristotle. What was the main purpose of this apparatus?
15. Heisenberg derived an “uncertainty principle”. Explain briefly what it means.
16. Draw a diagram of the Michelson Morley experiment, and explain what they were
attempting to measure.
17. A helium atom weighs a little bit less than four hydrogen atoms. Explain how this relates to
the Sun’s energy.
18. Name 2 of the 4 motions of the earth identified by Copernicus.
19. Explain why, according to current understanding, the lengths of the seasons (time between
equinox and solstice) are not quite equal.
20. Cecelia Payne’s thesis called “the most brilliant Ph.D. thesis ever written in astrophysics”
What was her great discovery?
Part III. (30 pts) Essay. Choose one of A, B or C (Do not do more than one).
A. Thomas Kuhn describes the structure of a scientific revolution by the following
pattern: normal science, novelty, anomaly, crisis, paradigm shift. Utilizing Kuhn’s
structure, choose one of the following and construct an argument that it does or does
not constitute a scientific revolution
Special Relativity
Quantizing energy
B. From the following list of major figures in the development of our understanding of
electromagnetic radiation, identify the contributions of any four of them and explain
how each arrived at his results.
Thomas Young
Hans Christian Oersted
Michael Faraday
James Clerk Maxwell
Heinrich Hertz
Albert Einstein
C. By describing the cosmos at the time of Aristotle and Ptolemy, the universe at the
time of Newton, and modern conceptions since the time of Einstein, explain how
Western humankind changed its view of “The Universe and Humanity’s Place in It.”