Physicists should be able to estimate the order-of-magnitude of
anything. How many atoms of Julius Caesar do you inhale with each breath? How
much waste does a nuclear power plant generate? This 1 credit course
will develop concepts, relations and numbers useful for estimation. We
will discuss the concepts as a group and attack the problems as a
group. I intend to lecture as little as possible. The course will not
cover new material but will make use of already acquired (or at least
already taught) knowledge. It will try to
help students apply physics to real-life questions and understand which
physical effects are appropriate on which scales. The corequisite is
Physics 232.
Your grade in the class will depend on
tests, homework and class participation.
Midterm: March 1
FINAL EXAM: MONDAY APRIL 30, 8:30-11:30, OCNPS 303
Here is the master list of questions
Logarithmic
map of the universe
| Date |
Problems Solved in Class |
Homework Problems (Due next class) |
Important numbers to be memorized for the exam:
Population of the Earth: 6*10^9
R_earth = 6*10^6 m
d_earth-sun = 1.5*10^11 m
d_earth-moon = 4*10^8 m
solar flux (at Earth orbit) = 1400 W/m^2
G = 7*10^(-11) N-m^2/kg^2
density of water = 1000 kg/m^3 = 1 kg/l = 1 g/cm^3
density of air (@stp) = 1 kg/m^3
density of iron = 10 tons/m^3
1 year = pi * 10^7 s
avogadro's number = N_A = 6*10^23
1 e = 1.6*10^(-19) Coulombs
molecular binding energy = 1.5 V
cell size = 5 * 10 ^(-6) m
atom size = 10^(-10) m
Chemistry stuff:
1 mole of gas at STP has V = 22.4 l
1 mole of gas has m (in grams) = molecular weight
specific heat of water = 1 cal/g-K = 4 J/g-K
Units:
1 m^2 = 10^3 l = 10^6 cm^3
1 ton = 10^3 kg = 10^6 g
1 atmosphere = 1 bar = 10^5 Pascal = 10^5 N/m^2 = 760 mm Hg = 10 m H2O
= 15 psi
Note that the atom size can be derived from Avogadro's number and the density of water.