A
NAME_
Examination for BCH 463
Wednesday September 16, 2015
This examination is scheduled from 1:30PM to 2:20 PM in class.
You are allowed a calculator and a double-sided sheet of handwritten notes.
The point total is 100.
Some physical constants:
Planck
Exam #3
VERSION A
_KEY_
(Name)
11/06/15
BCH463 (Wachter)
*
Total points:
100
Total problems:
10
Total pages:
13 (last page is blank)
Multiple Choice Questions:
Write your answer in the space provided (No Scantron).
Short Answer Questions:
Write you answer
Exam #2
VERSION B
_KEY_
(Name)
03/02/16
BCH463 (Wachter)
*
Total points:
100
Total problems:
10
Total pages:
16 (last page is blank)
Multiple Choice Questions:
Write your answer in the space provided (No Scantron).
Short Answer Questions:
Write you answer
NAME
KEY
Examination 2 for BCH 463
February 27, 2013
This examination is scheduled from 3:00 to 3:50 pm.
This exam is worth a total of 100 points.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 2
NAME
KEY
Examination 2 for BCH 463
February 27, 2013
This examination is scheduled from 1:30 to 2:20 pm.
This exam is worth a total of 100 points.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 2
NAME
Examination 2 for BCH 463
February 27, 2013
This examination is scheduled from 1:30 to 2:20 pm.
This exam is worth a total of 100 points.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 26.75
NAME
KEY
Examination for BCH 463
Monday October 10, 2011
This examination is scheduled from 2:00 to 2:50 pm.
For full credit show your work.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 26.75 x
NAME
Examination for BCH 463
Monday October 10, 2011
This examination is scheduled from 2:00 to 2:50 pm.
For full credit show your work.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 26.75 x 107
BCH 463 Biophysical Chemistry
Syllabus: Fall 2015
Day and Time: MWF 1:30-2:20PM
Class Room: PSH153
Final Exam: Mon Dec 7th 12:10-2:00 PM in PSH153
Instructors:
Wade Van Horn, Office 481E ISTB1, 480-965-8322, wade.van.horn@asu.edu*
Rebekka Wachter, Office
NAME
Examination 2 for BCH 463
February 27, 2013
This examination is scheduled from 3:00 to 3:50 pm.
This exam is worth a total of 100 points.
Some Physical Constants
10 = 1 nm = 10-9 m
RH = 109 677 cm-1
e = 1.602 x 10-19 C
1 eV = 1.60 x 10-19 J
p = 26.75
Homework to
Lectures:
Lecture_4 and Lecture_5
Schrdinger Equation (1)
The time-dependent Schrdinger equation for a free particle moving in
one dimension is:
Write the equivalent time-dependent Schrdinger
equation for a free particle moving in three-dimens
Chapter 11
Homework D:
The particle-in-a-box
One-dimensional box (1)
In b-carotene, the p electrons can be thought of as confined in a one-dimensional
potential well that is about as long as the conjugated system. Within the conjugated
system, the potenti
Exam #4
VERSION A
_KEY_
(Name)
04/27/16
BCH463 (Wachter)
*
Total points:
100
Total questions:
10
Total pages:
12 (last page is blank)
Multiple Choice Question:
Write your answer in the space provided.
Short Answer Questions:
Write you answer in the space
Exam #3
VERSION A
_KEY_
(Name)
04/04/2016
BCH463 (Wachter)
*
Total points:
100
Total problems:
10
Total pages:
14 (last page is blank)
Multiple Choice Questions:
Write your answer in the space provided (No Scantron).
Short Answer Questions:
Write you answ
Homework Tinoco
Chapter 11 A
(pp 408-415):
Origins of
Quantum
Mechanics
Origins of quantum theory (1)
Two classical motion theories were combined in quantum
mechanics. These are:
Origins of quantum theory (1)
Two classical motion theories were combined in
Homework Tinoco Chapter 11 A
(pp 415-420)
and
Lecture Notes
(Lecture_3 and Lecture_4)
Matter Waves (4)
At room temperature, gaseous hydrogen (H2) moves at a
velocity of 1.77 km/s due to thermal energy. The mass is 3.35
10-27 kg. What is the deBroglie wav
Tunneling (1)
Write the general form of the wavefunction within a potential energy barrier, if
the barrier is higher than the total energy of the particle (E < Uo). Assume a onedimensional system.
Tunneling (1)
Write the general form of the wavefunction w
A
NAME_
Examination for BCH 463
Wednesday September 17, 2014
This examination is scheduled from 1:30PM to 2:20 PM in class.
You are allowed a calculator and a double-sided sheet of handwritten notes.
The point total is 100.
Some physical constants:
Planck
NAME_KEY_
Examination II for BCH 463 Friday October 9th, 2015
This examination is scheduled from 1:30PM to 2:20 PM
The point total is 100.
For multiple choice questions circle the best answer.
Some physical constants:
Planck constant:
h= 6.63 x 10-34 J s
NAME_KEY_
Examination II for BCH 463 Friday October 10th, 2014
This examination is scheduled from 1:30PM to 2:20 PM
The point total is 100.
For multiple choice questions circle the best answer.
Some physical constants:
Planck constant:
h= 6.63 x 10-34 J s
2/5/15!
Chapter 11 Vibrational motion and infrared spectroscopy!
Simple Harmonic Oscillator: Classical theory!
Classically, a mass attached to a spring will vibrate between A and -A.!
F="k x
dv
d 2x
F= ma= m
=m 2
dt
dt
!
!
Amplitude Omega
Simple Harmonic
4/19/15
!
Schedule!
Monday April 20
Monday April 27
Wednesday April 29
Friday May 1 !
Monday May 4
!
!
!
!
!
!Start Chapter 20!
!Last day of lectures!
!Review!
!Exam 4; last class day!
!Final exam!
In order to quickly grade exam 4, all questions will be
3/14/15
!
How do these
transitions depend
upon the photons?!
N electrons!
= energy density
of photons!
!
w= transition rate!
!
W= overall rate!
Spontaneously
happens,
independent of
photons
N electrons!
Depends upon the
process of photons
Depends upon N
https:/www.youtube.com/watch?v=A_nh7vH_U#t=103
4/12/15
!
Chapter 17: Membranes, transporters, ion channels!
Most permeable
Membrane potentials!
Cells acquire raw
material for
biosynthesis and
energy
production from
their
surroundings.
Membranes are
barrie
3/31/15!
Chapter 15 X-ray diffraction!
Structure
determination:
(15.2) Can we use
a microscope to
determine the
structure of a
protein?
1
!
3/31/15!
(15.1) What type of radiation has a 1 wavelength!
a. Radiowaves!
b. Microwaves!
c. Visible light!
d. X-ra