lectures topics 1-2 - university of california, santa cruz · learning objectives and worksheet i...
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Chemistry 1B
Fall 2016
lectures topics 1-2[ch 12 pp 522-537]7th
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• Why? To understand the behavior of electronsin atoms an molecules
goals of lectures 1-2
• The “laws of nature” in 1900 (successful for describing large objects)describe particles AND describe waves
• Experiments that contradicted these laws(when applied on the scale of atomic dimensions)
Ultraviolet Catastrophe and Photoelectric Effect Spectrum of Hydrogen Atom Davisson-Germer and Compton Experiments
• particles BEHAVE AS waveswaves BEHAVE AS particles
• obtain and use observed quantitative relationships (HW #1)
• Why? To understand the behavior of electronsin atoms an molecules
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physics and chemistry in 1900
• fundamental particles and chargeelectron: - charge, me= 9.109 × 10-31 kgproton: + charge, mp= 1.672 × 10-27 kgneutron: 0 charge, mn= 1.675 × 10-27 kg
[back page]
• particles in general
• electromagnetic waves
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light waves
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properties of electromagnetic radiation (light WAVES)
• electromagnetic wavefig 12.1~ fig 12.2fig 12.3spectrum of visible light
• wave phenomena• refraction• dispersion• diffraction • interference and Fig. 12.7
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Planck’s Formula
• Blackbody radiation- Fig 12.4
• Ultraviolet catastrophe (p. 525)
• E=hν (energy per photon)h=constant= 6.626×10-34 m2 kg/s [J-sec]
[J]=[E]=[kg m2 s-2](HW#1 PROB 12.21)
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some comments about “energy” ( sec 9.1, pp. 359-360)
• kinetic energy
• potential energy
• conservation of energy
• momentum (p. 158)
• units and conversions
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Chemistry 1B –AL
Experiments that Ushered in the QUANTUM AGE
the Photoelectric Effect
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clicker material for AL class lecture session 2
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Learning Objectives and Worksheet I
Chemistry 1B-AL Fall 2016
Lectures (1-2) Nature of Light and Matter, Quantization of Energy, and the Wave-Particle Duality
I. Understand the following aspects of the laws of physics circa 1900, which were successful for describing large objects (i.e. particles) and electromagnetic waves: 1. Be able to identify the following fundamental particles, their respective charges, and their
relative masses (high school review?? learned on MOM’s knee in your childhood??)
2. What are three properties that were considered by 19th century physicists to be exclusively ‘properties of particles’?
3. What are three characteristics or properties that were considered by 19th century physicists to be exclusively ‘properties of waves?
4. Waves (sound, water, electromagnetic, etc.) are characterized by several properties
5. Know the types of radiation found at various frequencies of electromagnetic radiation and their relative ordering (as a function of wavelength)
6. Visible electromagnetic radiation fall correspond to wavelengths
7. Understand the following terms, relationships, and phenomena. Which of these were associated with the classical concept of particles, which with classical electromagnetic waves, and which with both (in classical models)? [most important are in bold]
i. Kinetic energy ii. Potential energy (e.g. electrostatic pull, gravitation, stretched spring)
iii. Conservation of energy iv. Relation between frequency and wavelength v. Momentum
vi. Maxwell's Laws (will study in physics 6; describes electromagnetic waves) vii. Dispersion
viii. Refraction ix. Diffraction x. Interference (constructive and destructive)
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observations that contradict the laws of classical physics
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Photoelectric effect
photoelectric effect: study guide I pp 4-5
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photoelectric effect (pp 514-515)
• apparatus Sil Fig. 7.7
• what’s observed
• interpretationphotoemissive
material
anode collector
electrons
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“electron in potential well”
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what was expected classically
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−
photoelectric effect : electron in a “potential well” (CLASSICAL: small amplitude, long wavelength)
ener
gylow amplitude
wave(long �)
no electron ejected
attraction of metalfor election
Φ is work function (value depends on the metal being irradiated)
example Φ for potassium=3.68x10-19J= 2.29eV
low amplitudewave
(long �)
Φ
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−
photoelectric effect : electron in a “potential well” (CLASSICAL: large amplitude, long wavelength)
ener
gy
nada: no electron ejected (RED IS JUST ALOSER WAVELENGTH)
attraction of metalfor election
large amplitudewave
(long �)Φ
CLASSICALLY:just increase amplitude to get enough energy to eject electron !!
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what was observed
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−
photoelectric effect : electron in a “potential well” (λ= long)
ener
gy
low energyphoton
no electron ejected
attraction of metalfor election
Φ
example for potassium Φ=3.59x10-19J= 2.24eV
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−
photoelectric effect : electron in a “potential well” (λ = medium)
ener
gy medium energyphoton
no extra energy for KE
attraction of metalfor election
Φ
example: for potassium (depth of ‘potential well’)
Φ= 3.59x10-19J = 2.24eV
photon of this energy: E=h�=hc/� �=(c/�)=(ch/E)=553 nm
(�=553nm color?)
3.59x10-19J
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−
photoelectric effect : electron in a “potential well” (λ = short)
ener
gy high energyphoton
mucho extra energy for KE
attraction of metalfor election
Φ
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summary of observations
KE
of e
ject
ed
elec
tron
s
frequency of light (ν )
cesium sodium
ν0=ΦCsh
ν0= ΦNah
for given ν > ν 0 increase intensity of light⇒ more photons, but E per photon remains same⇒ more electrons, but of same kinetic energy
ΦCs=3.05 × 10-19 Jν0= 4.60 × 1014 sec-1
�0= 652.6 × 10-9 m = 652.6 nm
ΦNa=3.94 × 10-19 Jν0= 5.95 × 1014 sec-1
�0= 504 × 10-9 m = 504 nm
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conservation of energy (p 527)
if a individual photon that has sufficient energy to ‘kick’ electron out of the potential well of metal:
if an individual photon does not have sufficient energyto ‘kick’ electron out of the potential well of metal:
NO ELECTRONS EJECTED !!
energy of photon= energy to get out of well + kinetic energy of electron
20 metal electron
1hν = hν + K.E.= Φ + m v2photon e
metal 00
Φ hν i.e. depth of well anwork f d the minimum energy to eject eunction of lecmetal tronhcλ≡ =DEFINITION :
(HW#1 12.27,12.29)( )
0 metal
1 2
metal
K.E.=hν -hν hν -Φ
2v = hν -Φ
=
photon photon
electron photonem
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class activity on photoelectron emission
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2. Energies of electrons in atoms are quantized:
3. “Particles” behaving like “waves”
4. “Waves” behaving like “particles” (actually “more of waves behaving like particles” since the quanta of radiation in the photoelectric effect may be thought to be examples of light with particle-like behavior)
III. Measurement and the Uncertainty Principle (consequences of wave-like properties)
Next Class Session !!!
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Finis for Today
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spectrum of atomic hydrogen
• classical prediction (death spiral)
• observation of atomic spectrafig. 12.8
• Bohr model (HW#1 12.38a,d, 12.40)fig. 12.10, Silberberg 7.10
1 12 22 21 2
7 1
1 1 1 and are integers with
1.096776 10 R is the Rydberg constant
λ−
= − >
= ×
R n n n nn n
R m
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28Dr. Quantum Pair-Share Activity
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Davisson-Germer experiment
X-ray diffractionof Al foil
Electron diffractionof Al foil
mind blowing
diffraction by slits and crystals
constructive int
destructive int
remember: WAVES showed
x-rays electrons ??
constructive int
destructive int
constructive and destructive interference
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wave-particle duality
• diffraction of electrons-(Davisson-Germer Experiment; p. 530)
• De Broglie relationship (p. 528) (HW#1 12.32,12.35)
• What is “meaning” of electron wave?? (http://phys.educ.ksu.edu/vqm/html/doubleslit/index.html)(http://www.youtube.com/watch?v=DfPeprQ7oGc)
• Wavelengths of “ordinary” objects (p. 528, example 12.2) Silberberg Table 7.1 (HW#1 prob S2)
• Compton Experiment
• Heisenberg uncertainty principle (p. 539) boing!! (HW#1 12.49)
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goals of lectures 1-2
• The “laws of nature” in 1900 (successful for describing large objects)describe particles AND describe waves
• Experiments that contradicted these laws(when applied on the scale of atomic dimensions)
Davisson-Germer and Compton Experiments
Ultraviolet Catastrophe and Photoelectric Effect
Spectrum of Hydrogen Atom
• particles BEHAVE AS waveswaves BEHAVE AS particles
• Ensuing quantitative relationships
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What to do ??
invent quantum mechanics !!!
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Solvay Conference 1927
The mid-1920's saw the development of the quantum theory, which had a profound effect on chemistry. Many theories in science are first presented at international meetings. This photograph of well-known scientists was taken at the international Solvay Conference in 1927. Among those present are many whose names are still known today. Front row, left to right: I. Langmuir, M. Planck, M. Curie, H. A. Lorentz, A. Einstein, P. Langevin, C. E. Guye, C. T. R. Wilson, O. W. Richardson. Second row, left to right: P. Debye, M. Knudsen, W. L. Bragg, H. A.Kramers, P. A. M. Dirac, A. H. Compton, L. V. de Broglie, M. Born, N. Bohr. Standing, left to right: A. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, T. De Donder, E. Schroedinger, E. Verschaffelt, W. Pauli, W. Heisenberg, R. H. Fowler, L. Brillouin.
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‘fuel’ for quantum mechanicians
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quantum mechanics: WEIRD
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end of topics1-2
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figure 12.1 Zumdahl
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figure ~12.2
λν=cHW PROBS #12.22, 12.23
wave amplitudewavelength (�) and frequency (� )
c=speed of light2.996 � 108 m s-1
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Silberberg figure 7.2
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Zumdahl figure 12.3
HW PROBS #12.21, #12.23
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R O Y G B I V
ROY G BIV
wavelength and color
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Silberberg figure 7.5 and Zumdahl 12.7
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Zumdahl figure 12.3 and Silberberg figure 7.6
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Ultraviolet catastrophe
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Silberberg figure 7.7
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Zumdahl figure 12.8
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classical “decay and death of hydrogen atom”
BUT ???
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Silberberg figure 7.10 (emission: H-electron loses energy)
2 1 1 2
2 1
218
2
18 22 21 2
2 178 10
1 12 178 10
2 17
2 1 2 1
Z=1 for H atom, n=1, 2, 3, ...
energy lost (emitted) by H atom, n n (n >n )
energy of photon em
-
itted
.
.
.
n
n n n n
photon n n
photon
ZE Jn
E E E J Zn n
E E
hν
−
−→
→
= − ×
→
∆ = − = − × −
= ∆
= 18 22 21 2
18 22 21 2
182 7 1 2
2 2 2 21 2 1 2
1 18 10
1 12 178 10
1 2 178 10 1 1 1 11 0967 10
.
. .
photon
J Zn n
hc J Zn n
J Z m Zhc n n n n
λ
λ
−
−
−−
× −
= × −
×= − = × −
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Silberberg figure 7.10 (absorption, H-electron gains energy)
1 2 2 1
1 2
218
2
18 22 22 1
2 178 10
1 12 178 10
ν
−
−→
→
= − ×
→
∆ = − = − × −
= ∆
=
.
.
1 2 2 1
Z=1 for H atom, n=1, 2, 3, ...
energy gained (absorbed) by H atom, n n (n >n )
energy of photon abs
+
orbed
n
n n n n
photon n n
photon
ZE Jn
E E E J Zn n
E E
h 18 21 22 2
1 2
18 22 21 2
182 7 1 2
2 2 2 21 2 1 2
1 12 178 10
1 12 178 10
1 2 178 10 1 1 1 11 0967 10
λ
λ
−
−
−−
× −
= × −
×= − = × −
.
.
. .
(note loss of - and switch of n ,n )
photon
J Zn n
hc J Zn n
J Z m Zhc n n n n
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50
Zumdahl figure 12.10
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51
Silberberg figure 7.5 and Zumdahl 12.7
constructive=high intensity
destructive=low intensity
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52
from http://phys.educ.ksu.edu/vqm/html/doubleslit/index.html
photons �= 402 nm
electrons v=3.06 × 106 m sec-1photons �= 594 nm
[slit 10-5 m] [slit 5 × 10-9 m]
electrons v= 4.6 × 106 m sec-1
ve e
hm
λ =
� increases ≈ x 1.5 v decreases ≈ x 1.5� increases
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53
Silberberg Table 7.1
note mass in g, need to use kg for mv�=h(� correct in table)
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54
wavelike properties of C60 (fullerene)
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55
waves: ∆x vs ∆v
∆xx
y
∆Vx ∆Vx
∆x larger ∆x smaller
∆vx smaller ∆vx larger
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56
Uncertainty and measurement
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57
particles in classical physics
• particles have mass (m) , definite positions (x) and velocities (v)
• particles have kinetic energyand momentum p=mv
• particles obey Newton’s laws of physics F=ma
21KE= mv2
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58
summary of experiments leading to quantum theory
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59
photon momenta when the speed of light < c