b-field points into page
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a. g. B-field points into page. b. 1900-01 Studying the deflection of these rays in magnetic fields, Becquerel and the Curies establish rays to be charged particles. 1900-01 Using the procedure developed by J.J. Thomson in 1887 - PowerPoint PPT PresentationTRANSCRIPT
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B-fieldpoints
into page
1900-01 Studying the deflection of these rays in magnetic fields, Becquerel and the Curies establish rays to be charged particles
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1900-01 Using the procedure developed by J.J. Thomson in 1887 Becquerel determined the ratio of charge q to mass m for
: q/m = 1.76×1011 coulombs/kilogram identical to the electron!
: q/m = 4.8×107 coulombs/kilogram 4000 times smaller!
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Discharge Tube
Thin-walled(0.01 mm)glass tube
to vacuumpump &Mercurysupply
Radium or Radon gas
Noting helium gas often found trapped in samples of radioactive minerals, Rutherford speculated that particles might be doubly ionized Helium atoms (He++)
1906-1909 Rutherford and T.D.Royds develop their “alpha mousetrap” to collect alpha particles and show this yields a gas with the spectral emission lines of helium!
Mercury
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Status of particle physics early 20th century
Electron J.J.Thomson 1898
nucleus ( proton) Ernest Rutherford 1908-09
Henri Becquerel 1896 Ernest Rutherford 1899
P. Villard 1900
X-rays Wilhelm Roentgen 1895
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Periodic Table of the Elements
Fe 26
55.86
Co 27
58.93
Ni 28
58.71
Atomic “weight” values averaged over all isotopes in the proportion they naturally occur.
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6
Isotopes are chemically identical (not separable by any chemical means)
but are physically different (mass)
Through lead, ~1/4 of the elements come in “single species”
The “last” 11 naturally occurring elements (Lead Uranium)
recur in 3 principal “radioactive series.”
Z=82 92
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92U238 90Th234 91Pa234 92U234
92U234 90Th230 88Ra226 86Rn222 84Po218 82Pb214
82Pb214 83Bi214 84Po214 82Pb210
82Pb210 83Bi210 84Po210 82Pb206
“Uranium I” 4.5109 years U238
“Uranium II” 2.5105 years U234
“Radium B” radioactive Pb214
“Radium G” stable Pb206
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Chemically separating the lead from various minerals (which suggested their origin) and comparing their masses:
Thorite (thorium with traces if uranium and lead)
208 amu
Pitchblende (containing uranium mineral and lead)
206 amu
“ordinary” lead deposits are chiefly 207 amu
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Masses are given in atomic mass units (amu) based on 6C12 = 12.000000
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Mass of bare hydrogen nucleus: 1.00727 amuMass of electron: 0.000549 amu
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number of neutrons
number of
protons
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dxexfkF ikx)(2
1)(
f(x) g'(x) g(x)= e+ikxi
k
dxxgx'fxgxf )()()()(
2
1
dxek
ix'fe
k
xif ikxikx )()(
2
1
f(x) is
boundedoscillates in thecomplex plane
over-all amplitude is damped at ±
we can integrate this “by parts”
Starting from the defining relation of a Fourier transform:
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dxex'fk
ikF ikx)(
2
1)(
)()(2
1kikFdxex'f ikx
Similarly, starting from:
dkekFxf ikx)(2
1)(
)()(2
1xixfdkek'F ikx
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And so, specifically for a normal distribution: f(x)=ex2/22
differentiating: )()(2
xfx
xfdx
d
from the relation just derived: kdekF
ixf
dx
d xki ~)
~(
2
1)(
~
2 '
Let’s Fourier transform THIS statement
i.e., apply: dxeikx
2
1on both sides!
dxei
kikF ikx 2
1)( 2 1
2 F'(k)e-ikxdk~ ~~
kdkFi ~
)~
(2 '
ei(k-k)xdx~ 1
2
(k – k)~
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kdkFi
kikF~
)~
()( 2 '
ei(k-k)xdx~ 1
2
(k – k)~
)()( 2 kFi
kikF '
selecting out k=k~
rewriting as: 2
)(
/)( kkF
dkkdF
0
k
0
k
dk''
''dk'
22
2
1)0(ln)(ln kFkF
2221
)0(
)( ke
F
kF 22
21
)0()(k
eFkF
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2221
)0()(k
eFkF
22 2/)( xexf Fourier transforms
of one anotherGaussian distribution
about the origin
dxexfkF ikx)(2
1)(
Now, since:
dxxfF )(2
1)0(
we expect:
10 xie
22
1)0(
22 2/
dxeF x
2221
2)(k
ekF
22 2/)( xexf Both are of the form
of a Gaussian!
x k 1/
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x k 1
orgiving physical interpretation to the new variable
x px h