Brian Wecht, the TA is back!

Pl. give all regrade requests to him

Quiz 4 is This Friday

Physics 2D Lecture Slides Lecture 14: Feb 3rd 2004

Vivek Sharma

UCSD Physics

Where are the electrons inside the atom?Early Thought: “Plum pudding” model Atom has a homogenous

distribution of Positive charge with electrons embedded in them(atom is neutral)

• How to test these hypotheses? Shoot “bullets” at the atom and watch their trajectory. What Kind of bullets ?

•Indestructible charged bullets Ionized He++ atom = α++ particles

•Q = +2e , Mass Mα=4amu >> me , Vα= 2 x 10 7 m/s (non-relavistic) [charged to probe charge & mass distribution inside atom]

e-

e-

e-e-

e-

e-

e-

e- e-

e-

e-

e-

e-

e-

e-e-

e-

e-

e-

Positively charged matter

?

+ Core

or +

Plum Pudding Model of Atom

• Non-relativistic mechanics (Vα/c = 0.1)

• In Plum-pudding model, α-rays hardly scatter because – Positive charge distributed over size of atom (10-10m)

– Mα >> Me (like moving truck hits a bicycle)

– predict α-rays will pass thru array of atoms with little scatter (~1o)

Need to test this hypothesis Ernest Rutherford

Probing Within an Atom with α Particles

• Most α particles pass thru gold foil with nary a deflection

• SOME (≅10-4) scatter at LARGE angles Φ• Even fewer scatter almost backwards Why

“Rutherford Scattering” discovered by his PhD Student (Marsden)

Rutherford Discovers Nucleus (Nobel Prize)

Force on α-particle due to heavy Nucleus

•Outside radius r =R, F ∝ Q/r2

•Inside radius r < R, F ∝ q/r2 = Qr/R2

•Maximum force at radius r = R2

particle trajectory is hyperbolic

Scattering angle is related to impact par.

Impact Parameter cot2

kq Qb

m vα

α α

α

θ⎛ ⎞ ⎛ ⎞= ⎜ ⎟ ⎜ ⎟⎝ ⎠⎝ ⎠

Rutherford Scattering: Prediction and Experimental Result

2 2 4

22 2 41

4 ( / 2)2

k Z e NnAn

R m v Sinα α ϕ∆ =

⎛ ⎞⎜ ⎟⎝ ⎠

•# scattered Vs φ depends on :

•n = # of incident alpha particles

•N = # of nuclei/area of foil

•Ze = Nuclear charge

• Kα of incident alpha beam

•A= detector area

Rutherford Scattering & Size of Nucleus

2

distance of closest appoach r size of nucleus

1Kinetic energy of = K =

2 particle will penetrate thru a radius r

until all its kinetic energy is used up to do

work AGAINST the Coulomb potent

m vα α βα

α

∝

( )( )

-

Al

215

2

15

-10

2

For K =7.7.MeV, Z 13

2

ial of

the

Size of Nucleus = 10

Siz

Nucleus:

21 K = 8

2

4.9

e of Ato

m = 1

10

0

2

kZ

Ze em v MeV k

er m

K

kZer

K

m

m

r

α

α

α β

α

α

−

=

⇒ =

=

×

=

=⇒

=

nucleus

nucleus

Dimension Matters !

-15

-10

Size of Nucleus = 10

Size of Atom = 10

m

m

•how are the electrons located inside an atom•How are they held in a stable fashion

•necessary condition for us to exist !

•All these discoveries will require new experiments and observations

Rutherford Atom & Classical Physics

Continuous & Discrete spectra of Elements

Visible Spectrum of Sun Through a Prism

Emission & Absorption Line Spectra of Elements

Kirchhoff’ Experiment : “D” Lines in Na

D lines darken noticeably when Sodium vapor introduced

Between slit and prism

Emission & Absorption Line Spectrum of Elements

•Emission line appear dark because of photographic exposure

Absorption spectrum of Na

While light passed thru Na vapor

is absorbed at specific λ

The Rapidly Vanishing Atom: A Classical Disaster ! Not too hard to draw analogy with dynamics under another Central Force

Think of the Gravitational Force between two objects and their circular orbits.

Perhaps the electron rotates around the Nucleus and is bound by their electrical charge

2 22

12

1M MF= G k

r

r

Q Q⇒

Laws of E&M destroy this equivalent picture : Why ?

Bohr’s Bold Model of Atom: Semi Quantum/Classical

1. Electron in circular orbit around proton with vel=v

2. Only stationary orbits allowed . Electron does not radiate when in these stable (stationary) orbits

3. Orbits quantized: – Mev r = n h/2π (n=1,2,3…)

4. Radiation emitted when electron “jumps” from a stable orbit of higher energy

stable orbit of lower energy Ef-Ei = hf =hc/λ

5. Energy change quantized• f = frequency of radiation

F V

me

+e

r

-e

2

2

( )

1

2 e

eU r k

r

KE m v

= −

=

Reduced Mass of 2-body system

• Both Nucleus & e- revolve around their common center of mass (CM)

• Such a system is equivalent to single particle of “reduced mass” µ that revolves around position of Nucleus at a distance of (e- -N) separation

µ= (meM)/(me+M), when M>>m, µ=m (Hydrogen atom)

Νot so when calculating Muon (mµ= 207 me) or equal mass charges rotating around each other (similar to what you saw in gravitation)

me

F V

me

+e

r

-e

General Two body Motion under a central force

reduces to

Allowed Energy Levels & Orbit Radii in Bohr Model

2

2 2

2

22

2

2

E=KE+U =

Force Equality for Stable Orbit

Coulomb attraction = CP Force

Total En

1

2

2 2

Negative E Bound sy

erg

stem

Thi

y

s

E = KE+U= - 2

e

e

e

m v

m v e

ek

r

m vek

r

Kr

r

E k

ek

r

=

−

=

⇒

⇒

=

⇒ much energy must be added to

the system to break up the bound atom

22

0

20

2 210

2

2

2

2

0

, 1 , 2

Radius of Electron Orbit :

,

1substitute in KE=

2 2

1 B

10.529 10

Quantized orbits of rotat

ohr Radius

In ge

,....

; 1 , 2,...neral .

ion

n

e

nr

mvr n

a mmk

nv

mr

r

kem v

r

n

n

n a n

e

e

mka

−

=

⇒ =

=

⇒

= ⇒

= = ∞

= =

= ×

∞

=

n

Energy Level Diagram and Atomic Transitions

2

2 20

2

2

2

20

2

2 20

2

2 20

2

i

0

2

since , n =quantum num ber

Interstate transition:

1 1

2

1 1 1

2

13.6, 1, 2, 3..

2

1 1

2

n

n

n

f

i

n

f

f

f

i

i

i

f

keE K U

r

kef

ha n n

f ke

c hca

keE eV n

a n n

ke

n

r a n

a

n

E h

n

E

n

f E

n

λ

−= = − = ∞

⎛ ⎞−= −⎜

⎛ ⎞= −⎜ ⎟⎜ ⎟

⎝ ⎠⎛ ⎞

= = −

−= + =

=

→

∆

⎜

= = −

⎟⎜ ⎟

⎜⎝

⎠

⎟⎟⎠

⎝

2 2

1 1 = R

f in n

⎛ ⎞−⎜ ⎟⎜ ⎟

⎝ ⎠

Hydrogen Spectrum: as explained by Bohr

Bohr’s “R” same as

the Rydberg Constant

R

derived emperically

from photographs of the

spectral series

2 2

202n

ke ZE

a n

⎛ ⎞= −⎜ ⎟

⎝ ⎠

Another Look at the Energy levels

2 2

202n

ke ZE

a n

⎛ ⎞= −⎜ ⎟

⎝ ⎠

Bohr’s Atom: Emission & Absorption Spectra

photon

photon

Some Notes About Bohr Like Atoms

• Ground state of Hydrogen atom (n=1) E0= -13.6 eV

• Method for calculating energy levels etc applies to all Hydrogen-like atoms -1e around +Ze– Examples : He+, Li++

• Energy levels would be different if replace electron with Muons

• Bohr’s method can be applied in general to all systems under a central force (e.g. gravitational instead of Coulombic)

1 2 1 2If change ( )

Changes every thing: E, r , f etc

"Importance of constants in your life"

Q Q M MU r k G

r r= →