14- 1
Quiz 4
Constants:
NA = 6.022 x 1023 mole-1
h = 6.626 x 10-34 J s
hbar = h/2
c = 2.998 x 108 m/s
k = 1.381 x 10-23 J/K
Conversion Factors:
1 = 0.1 nm = -10 m
10
1eV = 8065.5 cm-1
1 eV = 1.602 x 10-19 J
1.0 pm = 0.01 = 10-12 m
1J = 1 kg m2 s-2
Fr
13- 1
good job!
mean=67; s.d.=17
Wednesday, April 28, 2010
13- 2
I soon will generate and post a How Am I Doing? on the
gradebook in which your
overall course score is calculated.
Quiz 4 Friday.
rotational partition function of nonlinea
12- 1
this week in 130c.
Midterm Exam 1 grading will be complete by Wednesday and
scores posted.
A key for the exam is already available at the results page of
our website.
Quiz 4 is Friday! Yes, 130c is relentless. More abou
Please do three things:
D5
6- 1
1. Write your seat number
here.
2. Write & bubble in your
ID number here.
3.
Bubble in:
A (for an EVEN seat)
B (for an ODD seat)
Monday, April 12, 2010
Quiz 2
Constants:
Avogadros number (NA):
Boltzmanns constant
4- 1
Whats in this lecture?
Six things we have learned about Statistic Mechanics
so far - a brief review.
Entropy!
Monday, April 5, 2010
Six things we have learned about Statistical Mechanics so far?
4- 2
1.
Isolated systems of N molecules with
15- 1
some announcements.
MT1 corrections are due to Clark or Sheng-Chin Friday
by 5pm.
We are done with Statistical Mechanics, and were starting
chemical kinetics.
Were skipping Chapt 21, and going straight into Chapt 22.
5- 1
a PDF le with
all the
problems for
Ch 16.
Wednesday, April 7, 2010
5- 2
about ideal gases
Lecture 5, Wednesday, April 7, 2010
Wednesday, April 7, 2010
5- 3
Whats in this lecture?
More about the confusing topic of microcanonical &
canonical en
Please do three things:
D5
3- 1
1. Write your seat number
here.
2. Write & bubble in your
ID number here.
3.
Bubble in:
A (for an EVEN seat)
B (for an ODD seat)
Friday, April 2, 2010
Quiz 1
3- 2
Constants:
Avogadros number (NA):
6.022 x 1023 m
about Quiz 1.
2- 1
Well take it during the rst twenty minutes of class.
Youll need a #2 pencil and a calculator. I wont have any of
these.
3-4 short problems, keying on concepts covered in lectures
1 & 2 and/or exercises 16-1 through
16-