WEAPONS OF MASS DESTRUCTION

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WEAPONS OF MASS DESTRUCTION

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Title: WEAPONS OF MASS DESTRUCTION

1
?????? ?? ??????? ?????????? (??? ???????)-
WEAPONS OF MASS DESTRUCTION

On the morning of July 16, 1945, at 52945
a.m., a group of scientists, army officials, and
famous personalities - including British
ambassador Lord Halifax and Harvard president Dr.
James B. Conant - witnessed the detonation of
"Fat Man," a thirteen-pound plutonium bomb, which
caused a blaze of light and heat more brilliant
than the rising sun. The eighteen-kiloton
explosion shattered windows 120 miles from
Trinity and rumbled as far as 250 miles away. The
intense heat of the blast melted the surrounding
sand into a green, glassy, radioactive substance
dubbed "Trinitite," which litters the site to
this day.

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3

1. ????? ? ????? ?????? ?? ??????? ??????????
2. ????????? ??????
3. ???????? ? ???????? ??????
4. ????????????? ?????? ?? ??????? ??????????
5. ??????????

4
1. ????? ? ????? ?????? ?? ??????? ??????????
5
??????????

?????? ?? ??????? ?????????? ????????? ?? ??
??????????????? ?????? ?? ???????? ?????????????
????????? ???? ????????? ? ?? ??????????
?????????????????? ????? ????? ???? ?? ???????
(????? ?. ?????????)
?????? ?? ??????? ???????, ?? ?? ???????
?????????? (??? ???????)

6
???? ??????

????? ?????????? ???????? ???? ??????????????
??????
???????? ????????? (DETERRENCE)-?? ?????? ????
?????????? ???????? ????????????? ? ????-?? ????
?????
??????? ??? ????? ?? ????? ????? ?????? ???? ??
???? ?? ?????????
?????? ??????, ??????, ????????, ????, ????,
????? ?????? ? ??????? ??????

7
????? ?????? ?? ??????? ??????????

????????? ??????
???????? ??????
???????? ??????

8
2. ????????? ??????

As the bomb fell over Hiroshima and exploded, we
saw an entire city disappear. I wrote in my log
the words My God, what have we done Capt.,
Robert Lewis, U. S. Army Air Corps, copilot of
the Enola Gay
- A World without nuclear weapons would be lees
stable and more dangerous for all of us- former
British prime minister Margaret Thatcher

2.1. ?????, ????????? ? ????? ?????????? ??????
2.2. ??????? ????????? ?????? (??????? ?????)
2.3. ??????? ????????? ??????
2.4. ?????? ?????????? ? ????????? (DELIVERY)
2.5. ????????? ??????????
2.6. ??????????? ? ????????????? ????????? ????
?????

10
2.1. ?????????, ????? ? ????? ?????????? ??????
11
?????????

????? ??????? ??? ? ????????
???????
?????? ??????????, ?????? ???, ?????? ????????...
??????? ????????
????????? ??????
?????? ? ??????? ?????
16. ??? 1945. ??????- ???? ???????
?????? ? ?????? ? ???????? ??????? ?? ???
????????? ???????? ? ??????????? ??????
6. ? 9. ?????? 1945.- ???????? ? ???????? ("
LITTLE BOY ? FAT MAN)
???????? ?? ???????? ?????????? ????????? ?
??????? ????
??? ? ????????? ?????????? ?????????? ?????
?????? ???????? ???? ? ????????? ??? ?? ????? (2
????? 1947. ? 50 1948.)
?-36

12
??????????

????????? ?????? ??? ?????? ???? ??? ??????
???????? ??????? ????????? ????????
???????????? ?????? ???? ?? ?? ???????????
????????
????? ???????? ????????? ???? ?? ?????? ?????
????? ???? ?????? ??????????
??????? ?????? ??? ?? ????? ?????

13
Robert Oppenheimer and Lesley Grows
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Little boy and Hiroshima
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Bockscar and Fat Man
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????? ?????????? ??????

??????? ????????? ?????? (??????? ??? ?-?????)
??????? ????????? ?????? (?????????????? ?????,
??????????? ????? ??? ?-?????)

23
??????? ????????? ?????? (??????? ??? ?-?????)

????????????? ? ????????? ?? ??????????
???? ?? ???????? ?????? (??????) ????? ????????
???? ?? ????????? ???? ???????????? ? ????????
????? ???????????? ??????? ?Mx(CxC)-???? ????,
?????? ????????
??????? ??? ???????? ???????? ???? ?? ??????? ?
?? ????? ????????-235 (?-235) ? ??????????

24
???? ???? ????????? ???????

?? ?? ?? ?????? ???????? ???? ???? ??
???????????? ????? ????? ????????? ?? ? ?????
????? ???? "?????????? ???????????????
??????????? ? ??????? ????? ?? ???? ?? ??????
?????? ?????????

25
??????? ????????

????????
??????????

26
???????? ?? ?????? ????????

????????
??? ??? ???? ????????? ??????? ?? ????? ???????
?????
?-235 ?? ????? ????? ??????, ??? ????????
???????? ?????? ???? ?? 1 ?-235
???????????? ?-235 ?? ????????? ????????? ??
????, ???? ? ???????? ????? ???????? ??????

Uranium occurs naturally in underground deposits
consisting of a mixture of 0.7 uranium-235,
which is easily fissionable, and about 99.3
uranium-238, which is not fissionable. Nuclear
weapons require "enrichment" to increase the
proportion of U235 to 90 or more. This is called
Highly Enriched Uranium (HEU). Nuclear reactors
require enrichment to about 3 - 5 of U-235.
This is called Low Enriched Uranium (LEU).
HEU can be combined with plutonium to form the
"pit", or core of a nuclear weapon, or it can be
used alone as the nuclear explosive. The bomb
dropped on Hiroshima used only HEU. About 15-20
kgs of HEU are sufficient to make a bomb without
plutonium.

28
???????? ?? ?????? ????????

??????????
?????????? ?? ???????? ?????? ?? ????????? ????
?? ??????? ? ?????????? ??????????
???????? ???? ????????? ????? ?? ????
??????? ?? ? ? ????????????? ??????????
??????????
????? ?????? ?? ???????? ? ???????? ???? ?? ?????
??????????? ? ????? ?????????????
??????? ????? ?? ?????? ???????? ????? ? ??? ??
?????? ? ????????????? ?????????? ??????
???????????? ?? ????? ?? ??????? ????????? ??????

Plutonium is not found naturally in significant
quantities. It is produced in a nuclear reactor
through the absorption of neutrons by Uranium
238. The Plutonium emerges from a nuclear reactor
as part of the mix in spent nuclear fuel, along
with unused uranium and other highly radioactive
fission products. To get plutonium into a usable
form, a second key facility, a reprocessing
plant, is needed to chemically separate out the
plutonium from the other materials in spent fuel.
Once plutonium is separated, it can be processed
and fashioned into the fission core of a nuclear
weapon, called a "pit". Nuclear weapons typically
require three to five kilograms of plutonium.
Plutonium can also be converted into an oxide and
mixed with uranium dioxide to form mixed-oxide
(MOX) fuel for nuclear reactors. Britain, France,
Russia, India, Japan, Israel and China operate
reprocessing plants to obtain plutonium (the last
two only for military purposes). U.S. plutonium
production reactors were shut down in 1988.
A number of isotopes of plutonium are produced in
a reactor, the most common being Pu-239 which is
easily fissionable, and Pu-240 which is not. The
relative proportion of Pu-239 determines the
weapons grade of the plutonium. Reactor grade Pu,
i.e. Pu with 18 or more Pu-240, can still be
used to make a "crude" nuclear bomb.

30
??????? ????????? ?????? (?????????????? ?????,
??????????? ??? ?-?????)

?????? ?????? ?? ?????, ????? ????? ? ??????????
????? ????????
??? ?????? ??????????? ?? ?? ???????, ???????????
? ?????????? ????????????? ??????
???? ????? ? ???????????????????? ?????

November 1, 1952, The United States detonates the
first hydrogen bomb, 10.4 megaton Mike , at
Enewetak Atoll in the Marshall Islands. The
explosion is 500 times more powerful than the
bomb exploded at Nagasaki.

32
The "Mike" shot in 1952 inaugurated the age of
fusion weapons.
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The H- Bomb
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36
????? ???? ??????? ???? ???? ??????? ?????

??????????? ??? ???????? ???? ???????? ??????
????? ?? ?????? 1 ? 200 ???????? (1 ?? ??????? ??
?????? ?? 1000 ???? ??????????????? ??????????)
??????????? ??? ???????? ?????????? ?????? ?????
?? ?? 1-20 ???????? (1 ?? ??????? ?? ?????? ??
1000 ????????)
??????? ????????? ?????????? ????? ???????? ??
?????????? ????? ?????? ?? 1961. ?????? ???? ??
??????? ??????? ??????????? ????? ?? 60 ????????,
???? ?? ??????? ??? ???? ??? ???? ???? ???? ???
??????????? ???????? ????????? ? ?????? ????????
????

37
???? ???? ??????? ????????? ???????

??? ???? ?????? ??? ???? ????? (?????????
?????????) ??????? ?? (???? ?? ??????) ? ?????
???? ????, ??? ???? ?? ???????? ?????????
????????
??? ??? ?? ???????? ?? ????? ???????
?????????????
? ?? ?? ?? ??? ???????? ??????? ?? ??????? ??????

38
The Neutron Bomb

The tactical neutron bomb is a nuclear weapon
that maximizes damage to people but minimizes
damage to buildings and equipment. It is also
called an enhanced radiation warhead. The neutron
bomb is a specialized thermonuclear weapon that
produces a minimal blast but releases large
amounts of lethal radiation which can penetrate
armor or several feet of earth.
1962-The first neutron device is successfully
tested.
. U.S. production of the bomb was postponed in
1978 and resumed in 1981."

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???? ?????????? ????????? ???????

?????? ??????????? ???
???????-????????? ??????????? ????? ?????????? 1
?? ?????? ??????????? ?? 100 ??????? ??????????
??????????
???????????????
???????? ? ????????? ? ?????
?? ???? ?? ???? ????? ???? ?? 2000 ??????????
?????
??????? ???????
??????????????? ????
????????? ????

Blast
Thermal radiation
Initial nuclear radiation
Fallout

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Blast

The rapid release of energy in an explosion
creates a shock wave of overpressure. Very close
to the centre of a nuclear explosion,
overpressure is equivalent to several thousand
pounds per square inch (psi). This is hundreds of
times greater than the pressure in a pressure
cooker.
The overpressure crushes objects. Human lungs are
crushed at about 30 psi overpressure. Brick
houses are destroyed at about 10-15 psi
overpressure. The blast also generates high
velocity winds which can turn humans or objects
into missiles. At 15 - 20 psi the winds can fling
a person at several hundred kilometres per hour

45
The effects of the blast wave on a typical wood
framed house.
46
Blast effects on a concrete building at
Hiroshima.
47
Thermal radiation

Thermal radiation includes light and heat.
Nuclear weapons release a huge amount of energy
as light (ultraviolet, visible and infrared).
This light is so intense that it can make sand
explode, blind people many miles away, burn
shadows into concrete, burn skin and ignite
flammable materials at large distances.
The heat at the centre of the explosion
(epicentre) is so intense as to vapourise most
materials. The thermal radiation creates a
fireball which expands rapidly outwards consuming
oxygen and, combined with the blast effect,
creating near total destruction for some distance
from the epicentre.

Temperatures of a nuclear explosion reach those
in the interior of the sun, about 100,000,000
Celsius, and produce a brilliant fireball.
The fireball, an extremely hot and highly
luminous spherical mass of air and gaseous weapon
residues, occurs within less than one millionth
of one second of the weapon's detonation.
Immediately after its formation, the fireball
begins to grow in size, engulfing the surrounding
air.
It has then risen roughly 4.5 miles from the
point of burst.

49
Illustrated components of a nuclear explosion.
50
The mushroom cloud forming at the Nevada Test
Site.
51

One of the important differences between a
nuclear and conventional weapon is the large
proportion of a nuclear explosion's energy that
is released in the form of thermal energy. This
energy is emitted from the fireball in two
pulses. The first is quite short, and carries
only about 1 percent of the energy the second
pulse is more significant and is of longer
duration (up to 20 seconds).

52
The thermal pulse charring the paint
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Under some conditions, the many individual fires
created by a nuclear explosion can coalesce into
one massive fire known as a "firestorm.
For a firestorm to develop
There must be at least 8 pounds of combustibles
per square foot.
At least one-half of the structures in the area
are on fire simultaneously.
There is initially a wind of less than 8 miles
per hour.
The burning area is at least 0.5 square miles.
In Hiroshima, a firestorm did develop and about
4.4 square miles were destroyed. Although there
was some damage from uncontrolled fires at
Nagasaki, a firestorm did not develop. One reason
for this was the difference in the terrain.
Hiroshima is relatively flat, while Nagasaki has
uneven terrain.

55
The firestorm at Hiroshima
56

Flash Burns
Flash burns are one of the serious consequences
of a nuclear explosion. Flash burns result from
the absorption of radiant energy by the skin of
exposed individuals. A distinctive feature of
flash burns is the fact they are limited to
exposed areas of the skin facing the explosion.

A 1-megaton explosion can cause first-degree
burns (a bad sunburn) at a distance of about 7
miles, second-degree burns (producing blisters
and permanent scars) at distances of about 6
miles, and third-degree burns (which destroy skin
tissue) at distances up to 5 miles. Third-degree
burns over 24 percent of the body, or
second-degree burns over 30 percent, will result
in serious shock, and will probably prove fatal
unless prompt, specialized medical care is
available.
It has been estimated that burns caused some 50
percent of the deaths at Hiroshima and Nagasaki.

58
The burns are in a pattern corresponding to the
dark portions of the kimonoshe was wearing at
the time of the explosion.
59

Flash blindness
Flash blindness is caused by the initial
brilliant flash of light produced by the nuclear
detonation. The light is received on the retina
than can be tolerated, but less than is required
for irreversible injury. The retina is
particularly susceptible to visible and short
wavelength infrared light. The result is a
bleaching of visual pigment and temporary
blindness. Vision is completely recovered as the
pigment is regenerated.
During the daylight hours, flash blindness does
not persist for more than 2 minutes, but
generally lasts a few seconds. At night, when the
pupil is dilated, flashblindness will last for a
longer period of time.
A 1-megaton explosion can cause flash blindness
at distances as great as 13 miles on a clear day,
or 53 miles on a clear night. If the intensity is
great enough, a permanent retinal burn will
result.

60
Initial nuclear radiation

Initial radiation consists mostly of gamma rays
and neutrons which are generated in the nuclear
reaction and can enter the human body directly.
In general a radiation dose of 400 rads will be
lethal to 50 or more of the exposed population.
These deaths occur within about 6 - 7 weeks.

61
Fallout

Fallout consists of large numbers of particles,
from the earth, buildings and other ground
objects, which are irradiated by the explosion,
mixing with the radioactive products of the
explosion itself and then being distributed over
a wide area by wind. An example of a fallout
pattern is given in the table.
There are a large number of radioactive products
from a nuclear explosion. These lodge in
different parts of the body (table ). The
radioactive products emit different types of
radiation - alpha particles, beta particles or
gamma rays, which differ in the degree of damage
they can do. Alpha particles do the most damage
once inside the body, but do little damage
outside as they cannot penetrate skin.
There is no known way of nuetralising a
radioactive substance, apart from sending it
through a nuclear reactor. Thus, radioactive
products are dangerous until they have decayed to
such an extent that they no longer emit
significant amounts of radiation. This time is
usually considered to be 10 times the half-life.
The effects of fallout persist for hundreds of
years, although the relative risk reduces over
time.

62
Electromagnetic Pulse

Electromagnetic pulse (EMP) is an electromagnetic
wave similar to radio waves, which results from
secondary reactions occurring when the nuclear
gamma radiation is absorbed in the air or ground.
It differs from the usual radio waves in two
important ways. First, it creates much higher
electric field strengths. Whereas a radio signal
might produce a thousandth of a volt or less in a
receiving antenna, an EMP pulse might produce
thousands of volts. Secondly, it is a single
pulse of energy that disappears completely in a
small fraction of a second. In this sense, it is
rather similar to the electrical signal from
lightning, but the rise in voltage is typically a
hundred times faster. This means that most
equipment designed to protect electrical
facilities from lightning works too slowly to be
effective against EMP.

63
The range of the EMP effects of a high altitude
burst
64
Ozone Depletion

When a nuclear weapon explodes in the air, the
surrounding air is subjected to great heat,
followed by relatively rapid cooling. These
conditions are ideal for the production of
tremendous amounts of nitric oxides. These oxides
are carried into the upper atmosphere, where they
reduce the concentration of protective ozone.
Ozone is necessary to block harmful ultraviolet
radiation from reaching the Earth's surface.

65
Nuclear Winter

In 1983, R.P. Turco, O.B. Toon, T.P. Ackerman,
J.B. Pollack, and Carl Sagan (referred to as
TTAPS) published a paper entitled "Global
Atmospheric Consequences of Nuclear War" which is
the foundation on which the nuclear winter theory
is based on.
Theory states that nuclear explosions will set
off firestorms over many cities and forests
within range. Great plumes of smoke, soot, and
dust would be sent aloft from these fires, lifted
by their own heating to high altitudes where they
could drift for weeks before dropping back or
being washed out of the atmosphere onto the
ground. Several hundred million tons of this
smoke and soot would be shepherded by strong
west-to-east winds until they would form a
uniform belt of particles encircling the Northern
Hemisphere.

It is not certain that a nuclear war would
produce a nuclear winter effect. However, it
remains a possibility and the TTAPS study
concluded "...the possibility of the extinction
of Homo Sapiens cannot be excluded."

These thick black clouds could block out all but
a fraction of the sun's light for a period as
long as several weeks. The conditions of
semidarkness, killing frosts, and subfreezing
temperatures, combined with high doses of
radiation from nuclear fallout, would interrupt
plant photosynthesis and could thus destroy much
of the Earth's vegetation and animal life. The
extreme cold, high radiation levels, and the
widespread destruction of industrial, medical,
and transportation infrastructures along with
food supplies and crops would trigger a massive
death toll from starvation, exposure, and disease.

68
???????????????

?????? ?????? ???? ??? ??????? ?????
- ???????????? ? ???????????

There were 18 Japanese who survived the atomic
attack on Hiroshima, were among those who fled to
Nagasaki and then also survived the atomic attack
on that city three days later

70
2.4. ?????? ?????????? ? ??????? (DELIVERY)
?????????? ??????
71

????????? ?????? ?? ???? "???????" ?? ???????
???? ?? ????? ?? ???????? ??????

??????- ?? ?-29, ????? ?-36 ?? ??????????
?????????? ??????????
????????? ????? ??????????????? ????????????
??????? ???? ?????-?????? ? ????????????????
???????? ???????
SUBMARINE LAUNCHED MISSILES (SLBMs)
?????????? ?????? (BALLISTIC MISSILES)
????????? ??????

73
???????????? ??????????
74
B 29 Superfortress
75
B 36 "Peacemaker"
76

The Convair B-36 was a strategic bomber built by
Convair for the United States Air Force, the
first to have truly intercontinental range.
Unofficially nicknamed the "Peacemaker", the B-36
was the first thermonuclear weapon delivery
vehicle, the largest piston aircraft ever to be
mass-produced, and the largest warplane of any
kind. Although there have been larger military
aircraft, they have all been transports.

77
B 52
78

Air Combat Command's B-52 is a long-range, heavy
bomber that can perform a variety of missions.
The bomber is capable of flying at high subsonic
speeds at altitudes up to 50,000 feet (15,166.6
meters). It can carry nuclear or precision guided
conventional ordnance with worldwide precision
navigation capability.
The use of aerial refueling gives the B-52 a
range limited only by crew endurance. It has an
unrefueled combat range in excess of 8,800 miles
(14,080 kilometers)

79
SUBMARINE LAUNCHED MISSILES
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81
Trident II
82
Tomahawk
83
?????????? ??????

?????? ??????????? ?????????? ??????
??? ???? ????????? ?????? ????? ??? ????????????
? ???????? ?? ?? ????
???? 50 000 ???? ????? ?????????, ??? ?? ????
????????? ??????????
?????? ????????

84
Peenemünde Museum replica of the first successful
V-2 rocket.

The Vergeltungswaffe 2 ("Reprisal weapon 2")
(V-2), also known as the A4 (Aggregat 4), was an
early ballistic missile used by the German Army
primarily against Belgian and British targets
during the later stages of World War II. The V-2
was the first man-made object launched into
space, during test flights that reached an
altitude of 189 km (117 miles). It was the
progenitor of the space race, which ultimately
put men on the moon, and resulted in probes that
have now left our solar system.

85
????? ??????????? ??????

???????? ????? ?? 500 ?? 1000 ???? (SHORTRANGE
BALLISTIC MISSILES)-?????? ???????? ?
???????????????????? ?????
?????? ??????? ?????? ?? 1000 ?? 5000 ????
(INTERMEDIATE BALLISTIC MISSILES)
???????????? ?????? ????? 5000 ????-????????? ??
?????? ?? ?????? (INTERCONTINENTAL BALISTIC
MISSILES- ICBMs)

86
The United States divides missiles into four
range classes

Intercontinental Ballistic Missile ICBM over 5500
kilometers
Intermediate-Range Ballistic Missile IRBM 3000 to
5500 kilometers
Medium-Range Ballistic Missile MRBM 1000 to 3000
kilometers
Short-Range Ballistic missile SRBM up to 1000
kilometers

87
The Soviet and Russian military developed a
system of five range classes

Strategic over 1000 kilometers
Operational-Strategic 500 to 1000 kilometers
Operational 300 to 500 kilometers
Operational-Tactical 50 to 300 kilometers
Tactical up to 50 kilometers

88
Intercontinental Ballistic Missile ICBM
89

Intercontinental Ballistic Missiles (ICBMs) have
ranges of greater than 5,500 km. ICBMs create a
problem because they enable a country to break
out of a regional context and move toward
potential global impact. Regardless of the origin
of a conflict, a country may involve the entire
world simply by threatening to spread the war
with an ICBM.

90
SM-68B Titan II
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Topolj-m
95
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97
?????????? ?????? "????????? ?????"

???, ?????? ? ???? 13 000 (????? ????)
?????????-4600, ?????????- 3700 (SBLMs, ?????
????)
??????? ?????? 800-3000 (????? ????? ??????,
??????, ????, ?????)
?????? 150-1500 (????? ????????, ????,
??????????, ????, ??????, ??????)
???????? 175-400 (????? ??????)
???? 300-1250 (????? ????, ??????, ??????????,
??????, ??????, ??????, ????? ???????, ??????,
??????)
????? ???????
??????
????
??????
??????
?????
????????? ??????? ???????
??????????
????? ??????
????????
??????????
????????
????????

98
2.5. ????????? ??????????
99
????? ??????????? ??????????

????????? ?????????? ?? ?????? ?? ???? ?? ??????
???????? ?????? ?? ????????????????? ?????????,
???? ?? ?? ?????????? ?? ???, ? ???? ?? ??
????????????? ? ?????????? ?? ?????????

100
?????????? ??????? ???????

??? ?????? ????
????? ??????????
????????????

101
?????????? ?????????? ????????

????? ????????
??? ??????
????????????

102
??? (MUTUAL ASSURED DESTRUCTION)

???? ?? ???????????? ?????????? ?????????? ??????
?????????? ?? ???? ?????
?????????? ?? ????? ?????

103

The End of MAD? The Nuclear Dimension of U.S.
Primacy Keir A. Lieber and Daryl G. Press
The age of MAD, however, is waning. Today the
United States stands on the verge of attaining
nuclear primacy vis-à-vis its plausible great
power adversaries. For the first time in decades,
it could conceivably disarm the long-range
nuclear arsenals of Russia or China with a
nuclear first strike. A preemptive strike on an
alerted Russian arsenal would still likely fail,
but a surprise attack at peacetime alert levels
would have a reasonable chance of success.
Furthermore, the Chinese nuclear force is so
vulnerable that it could be destroyed even if it
were alerted during a crisis. To the extent that
great power peace stems from the pacifying
effects of nuclear weapons, it currently rests on
a shaky foundation.

104

We use the term nuclear primacy to describe the
situation in which the one country with primacy
can destroy its adversarys nuclear retaliatory
capabilities in a disarming strike.
In the last fifteen years, however, the strategic
nuclear balance has shifted profoundly. Part of
the shift is attributable to the decline of the
Russian arsenal. Compared with the Soviet force
in 1990, Russia has 58 percent fewer
intercontinental ballistic missiles (ICBMs), 39
percent fewer bombers, and 80 percent fewer
ballistic missile submarines (SSBNs).16
Furthermore, serious maintenance and readiness
problems plague Russias nuclear forces.
China has only 18 single-warhead missiles that
can reach the U.S. homeland If the United States
can destroy all of Russias long-range nuclear
systems in a first strikeas we argue it could
possibly do todayit suggests that the Chinese
strategic nuclear arsenal is far more vulnerable.

105
SDI (Strategic Defense Initiative)- ??? ??????"

?????? ????? ? "????? ?????? ???
23. 3. 1983.
?????? ??? ??????? ?? ?????? ????
??????????? ? ??????

106
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107
2.6. ???????? ?????????? ?????????
108
??????????? ????????? ???-???? (??????)

SALT I 1972.
SALT II 1979.
INF TREATY 1987.
START I 1991.
START II 1993.
STRATEGIC OFFENSIVE REDUCTION TREATY 2002. (RIM)

109
SALT ( STRATEGIC ARMS LIMITATION TREATY) I- 1972.

ABM TREATY (ANTIBALLISTIC MISSILE TREATY-????? ??
???? ?????? ???????, ?????? ? ?????????)
??????????? "?????????? ?? ?????? ????? ICBMs ?
SLBMs

110
SALT II 1979.

?????? ???????????-????????? ???????????? ?
???????????
???????????? ??????????? ?????? ????? ??????, ??
?????? ?? 2400.
SLBMs
????????? ??????????
SURFACE TO AIR MISSILE LAUNCHERS

111
INF (INTERMEDIATE RANGE NUCLEAR FORCES) TREATY
1987.

??????????? ???? ?????????? ? ????????? ??????
??????? ??????
?????? ??????? ?????? ??????? ????
??-20 ???????

112
START I (STRATEGIC ARMS REDUCTION TREATY) 1991.

?? ?? ????????? ??????? ????? 15 ? ????? ?? 25
??? ?? 12 081 ?? 10 395
???? ?? 10 841 ?? 8 040

113
START II 1993.

?? 50 ??????? ?????????? ????????
????? ?? ??????????? 2000. ??????

114
STRATEGIC OFFENSIVE REDUCTION TREATY-2002.

?? 6 000 ?? 2 200 ?? ????? ????????
??????????? ??? ???????? ????????? ??????

115
?????????????? ?????????
116
THE NON-PROLIFERATION TREATY 1968.

INTERNATIONAL ATOMIC ENERGY AGENCY (IAEA)
172 ??????????
??????, ????????, ??????, ?????

117
COMPREHENSIVE TEST BAN TREATY 1996.

?? ??????? ??? ????????? ?????
??? ??????
?????? ? ???????? 1998.

118
3. ???????? ? ???????? ??????
119
3.1. ???????? ??????

????????? ????????? ?????? ?????????? ??
?????????? ???? ??????????????? ? ??????? ????
??????? ???? ????? ????????? ??????, ?? ???????
?????? ?? ???????????? ????????

120
???????? ?????? ?? ???? ???????? ? ?????? ?????

?) ?????????? ? ?????????????? ??? ??? ?? ???? ?
??????
?) ???? ?????? ??? ???????? ??????? ? ?????????
??????
?) ???????? ??? ??? ?? ?????? ? ????? ?
?) ?????? ?????? ????? ??????, ??????, ????? ? V
???????

121
???? ??????? ???????? ??????

???????? ?????? ??????, ???????, ??????? ?????? ?
????? ??????? ????????
????? ?? ??????? ?? ???-??? ????? ? ????? ?????
??? ?? ????????? ?????? ??? ????????

122
???????? ????????? ??????

???? ??????? ???
? ?????? ???????? ???? ???? ?????????
??????? ?????? ?????
???????????? ????? ?? ?????? ? ????? ?????? ?
???????????? ???????? ??????? ?????? ?? ???????
??????????

123
Halabja poison gas attack

The Halabja poison gas attack was an incident on
15 March19 March 1988 during the Iran-Iraq War
when chemical weapons were used by the Iraqi
government forces to kill a number of people in
the Iraqi Kurdish town of Halabja (population
80,000). Estimates of casualties range from
several hundred to 7,000 people. Halabja is
located about 150 miles northeast of Baghdad and
8-10 miles from the Iranian border.
Halabja was not the first time Iraq had turned
its chemical arsenal on the Kurds. Thousands --
and most likely tens of thousands -- of civilians
were killed during chemical and conventional
bombardments stretching from the spring of 1987
through the fall of 1988. The attacks were part
of a long-standing campaign that destroyed almost
every Kurdish village in Iraq -- along with a
centuries-old way of life -- and displaced at
least a million of the country's estimated 3.5
million Kurdish population

124
(No Transcript)
125
???????? ????????? ??????

???????? ???????? 1925
?????????? ? ????????? ?????? ?? 1992.
??????-??????? ?????????? ? ????????? ?????????
?????? ?????? ??????????
175 ?????? ?? ?? ?????????
????? ????????
????? ??????? ?? ??????????? 44 000 ????
????????? ?????? ?? ??????? ??????? ????

126
3.2. ??????? ??????

????????? ????????? ?????? ?????????? ??
?????????????? ? ?? ??? ???????? ?????? ????
??????????????? ? ??????? ????
??????, ?????????
??????, ??????? ? ??.
????? ?????? ?? ??? ???? ????

127

????????? ?? ????? ????? ????????? ? ????
????? ? ????? ???????? ?????? ? ?????? ????????
????
??????? ? ????????? ??????? ??????? ?????????
?????? ??? ????? ??????

128
??????? ??? ?????????? ???????? ?????????? ????
?? ???? ?? ?? ?? ????????? ? ????? ?????

?) ??????
?) ?????????
?) ???????
?) ????????
?) ???????

129
???????? ???????? ??????

?????????? ? ???????? ?????? ?? 1972. ??????- 100
?????? ?????????, ?????????? ? ?????? ????
?????? ? ?????? ??? ???????????? ?????????
??????? ?? ?????? ???????????

130
BW Agents Differ from CW Agents
Biological Agents Living beings Infectious
agents that replicate Incubation period
delayed onset of effects (days - weeks) A few
are contagious Diverse pathogenic effects None
volatile Not dermally active Usually no
decontamination Often dual-use medical or
research use or presence Odorless and
tasteless Many are effective immunogens Lab
clinical microbiology International law - BWC
Chemical Agents Inanimate substance Chemicals do
not replicate No incubation period - rapid onset
of effects (minutes) Not ever
contagious Fewer types of effects Many
volatile Many are dermally active Usually must be
decontaminated CW agents only for weapons
precursors some dual-use Odor and taste when
contaminated Poor immunogens Lab clinical
chemistry International law - CWC
131
Biological and Chemical Weapons as Systems

Pathogen or chemical active ingredient of the
system for pathogens, may be non-contagious or
contagious
Formulation chemical mixed with agent for
greater stability and effective dispersal may be
a wet or dry formulation (not necessarily
needed for contagious)
Munition protect agent during transport and
while in storage (not necessarily needed for
contagious)
Dispersal device usually sprayer or atomizer for
creating aerosol may be a simple mechanism such
as syringe, ladle, etc. (not needed for
contagious)
A pathogen or chemical by itself is not a
weapon.

132
(No Transcript)
133
U.S. M143 Biological Bomb - Exterior
U.S. M143 Biological Bomb - Exterior
134
U.S. M143 Biological Bomb Cross Section
U.S. M143 Biological Bomb Cross Section
135
Iraqi R 400A Aerial Biological Bomb
136
cc
137
Al Hussein Missile
Fictionalized Artists Rendition Pre-1992
138
Encapsulation Equipment
139
Encapsulated Bacteria
140
4. ????????????? ?????? ?? ??????? ??????????
141
?????????????

????????????? ??? ?????? ????? ?????? ????
???????? ???? ?? ??? ??? ?? ?????? ?? ???????
??????????
??????????????? ??????
??????????????? ??????
???????? ???? ? ??? ??????

142
(No Transcript)
143
5. ??????????

JOSHUA S. GOLDSTEIN, INTERNATIONAL RELATIONS,
LONGMAN, NEW YORK, 2004, FIFTH EDITION
JOHN T. ROURK, INTERNATIONAL POLITICS ON THE
WORLD STAGE, DUSHKIN MCGRAW HILL, NEW YORK, 1999,
SEVENTH EDITION
CARLS KEGLI JR., JUDIN VITKOF, SVETSKA POLITIKA,
CENTAR ZA STUDIJE JUGOSITOCNE EVROPE, DIPLOMATSKA
AKADEMIJA, FAKULTET POLITICKIH NAUKA, BEOGRAD,
2004
RADOVAN VUKADINOVIC, NUKLEARNE STRATEGIJE
SUPERSILA, AUGUST CESAREC, ZAGREB, 1985
RADOMIR VUJKOVIC, SPORAZUMI O KONTROLI
NAORUANJA, NIU VOJSKA, BEOGRAD, 1998