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       Nuclear War Survival Skills   by Cresson Kearny   
     Ch. 2: Warnings and Communications 
     TYPES OF WARNINGS
     Warnings are of two types, strategic and tactical.
     Strategic warning is based on observed enemy actions that are believed
to be preparations for an attack. For example, we would have strategic
warning if powerful Russian armies were advancing into western Europe and
Soviet leaders were threatening massive nuclear destruction if the resisting
nations should begin to use tactical nuclear weapons. With strategic warning
being given by news broadcasts and newspapers over a period of days,
Americans in areas that are probably targeted would have time to evacuate.
Given a day or more of warning, tens of millions of us could build or improve
shelters and in other ways improve our chances of surviving the feared
attack. By doing so, we also would help decrease the risk of attack.
     Tactical warning of a nuclear attack on the United States 'would be
received by our highest officials a few minutes after missiles or other
nuclear weapons had been launched against our country. Radar, satellites and
other sophisticated means of detection would begin to feed information into
our military warning systems almost at once. This raw information would have
to be evaluated, and top- level decisions would have to be made. Then attack
warnings would have to be transmitted down to communities all over America.
     Tactical warning (attack warning) of an out-of- the-blue,
Pearl-Harbor-type attack would be less likely to be received by the average
American than would an attack warning given after recognized strategic
warning. However, the short time (only 15 to 40 minutes) that would elapse
between missile launchings and the resultant first explosions on targets in
the United States would make it difficult for even an excellent warning
system to alert the majority of Americans in time for them to reach the best
available nearby shelter.
     Strengths and weaknesses of the present official warning system are
summarized in the following two sections. Then the life-saving warnings that
the first nuclear explosions would give, especially to informed people, are
described.
     WARNINGS GIVEN BY THE ATTACK ITSELF
     The great majority of Americans would not be injured by the first
explosions of a nuclear attack. In an all-out attack, the early explosions
would give sufficient warning for most people to reach nearby shelter in
time. Fifteen minutes or more before big intercontinental ballistic missiles
(lCBMs) blasted our cities, missile sites, and other extensive areas, most
citizens would see the sky lit up to an astounding brightness, would hear the
thunderous sounds of distant explosions, or would note the sudden outage of
electric power and most communications. These reliable attack warnings would
result from the explosion of submarine-launched ballistic missiles (SLBMs).
These are smaller than many ICBMs. The SLBM warheads would explode on
Strategic Air Command bases and on many civilian airport runways that are
long enough to be used by our big bombers. Some naval bases and high-priority
military command and communication centers would also be targeted.
     The vast majority of Americans do not know how to use these warnings
from explosions to help them save their lives. Neither are they informed
about the probable strategies of an enemy nuclear attack.
     One of the first objectives of a coordinated enemy attack would be to
destroy our long-range bombers, because each surviving U.S. bomber would be
one of our most deadly retaliatory weapons. Once bombers are airborne and
well away from their runways, they arc difficult to destroy. 
     To destroy our bombers before they could get away, the first SLBMs would
be launched at the same time that ICBMs would be fired from their silos in
Europe and Asia. U.S. surveillance systems would detect launchings and
transmit warnings within a very few minutes. Since some enemy submarines
would be only a few hundred miles from their targets, some SLBMs would
explode on American targets about 15 or 20 minutes before the first lCBMs
would hit.
     Some SLBMs would strike civilian airport runways that are at least 7000
Ft long. This is the minimum length required by B-52s; there were 210 such
runways in the U.S. in 1977. During a crisis, big bombers would be dispersed
to many of these long runways, and enemy SLBMs would be likely to target and
hit these runways in an effort to destroy the maximum number of bombers.
     Today most Soviet SLBMs have warheadsbetween 100 kilotons and one
megaton.See Jane's Weapon Systems, 1987-88. Within 10 to 15 minutes of the
beginning of an attack, runways 7000 feet or longer are likely to be hit by
airbursts, to destroy U.S. aircraft and airport facilities. Later cratering
explosions may be used to destroy surviving long runways, or at least to
produce local fallout so heavy that they could not be used for several days
for rearming and refueling our bombers. Therefore, homes within about 4 miles
of a runway at least 7000 ft long are likely to be destroyed before residents
receive warning or have time to reach blast shelters away from their homes.
Homes six miles away could be lightly damaged by such a warhead, with the
blast wave from a 1-megaton explosion arriving about 22 seconds after the
warning light. Some windows would be broken 40 miles away. But the large
majority of citizens would not be injured by these early SLBM attacks. These
explosions would be life-saving "take cover warnings to most Americans, if
they have been properly informed. 
     Sudden power and communications failures caused by the electromagnetic
pulse (EM P) effects of nuclear explosions also could serve as attack
warnings in extensive areas. An EMP is an intense burst of radio- frequency
radiation generated by a nuclear explosion. The strong, quick-rising surges
of electric current induced by EMP in power transmission lines and long
antennas could burn out most unprotected electrical and electronic equipment.
Also likely to be damaged or destroyed would be unprotected computers. The
solid state electrical components of some aircraft and of some motors of
modern autos, trucks, and tractors may be put out of commission. Metal bodies
give some protection, whereas plastic bodies give little.
     The usual means of protecting electrical equipment against surges of
current produced by lightning are generally ineffective against EMP. The
protective measures are known, but to date all too few civilian installations
have been protected against EMP effects. Three or four nuclear weapons
skillfully spaced and detonated at high altitudes over the United States
would produce EMP effects that might knock out most public power, most radio
and TV broadcasting stations lacking special protection against these
effects, and most radios connected to long antennas. Nuclear explosions on or
near the ground may produce damaging EMP effects over areas somewhat larger
than those in which such equipment and buildings would be damaged by the
blast effects.
     HOW TO RESPOND TO UNEXPECTED ATTACK WARNINGS
     Although a Pearl-Harbor-type of attack is unlikely, citizens should be
prepared to respond effectively to unexpected warnings.
     These warnings include:
     Extremely bright lights -more light than has been seen before. The
dazzling, bright lights of the first SLBM explosions on targets in many parts
of the United States would be seen by most Americans. One should not look to
determine the source of light and heat, because there is danger of the
viewer's eyes being damaged by the heat and light from a large explosion at
distances as far as a hundred miles away, in clear weather. Look down and
away from the probable source, and quickly get behind anything that will
shield you from most of the thermal pulse's burning heat and intense light. A
thermal pulse delivers its heat and light for several seconds- for more than
11 seconds if it is from a 1 -megaton surface burst and for approximately 44
seconds if from a 20- megaton surface burst.
     If you are at home when you see the amazingly bright light, run out of
rooms with windows. Hurry to a windowless hallway or down into the basement.
If you have a shelter close to your house, but separate from it, do not leave
the best cover in your home to run outdoors to reach the shelter; wait until
about two minutes after first seeing the light.
     If outdoors when you see the bright light, get behind the best available
cover.
     It would be impossible to estimate the distance to an explosion from its
light or appearance, so you should stay under cover for about two minutes. A
blast wave initially travels much faster than the normal speed of sound
(about 1 mile in 5 seconds). But by the time its overpressure has decreased
to 1 pound per square inch (psi), a blast wave and its thunderous sound have
slowed down and are moving only about 3% faster than the normal speed of
sound. 
     If no blast or sound reaches you in two minutes, you would know that the
explosion was over 25 miles away and you would not be hurt by blast effects,
unless cut by shattered window glass. After two minutes you can safely leave
the best cover in your home and get a radio. Turn the dial to the stations to
which you normally listen and try to find information. Meanwhile, quickly
make preparations to go to the best shelter you and your family can reach
within IS minutes the probable time interval before the first lCBMs start to
explode.
     At no time after an attack begins should you look out of a window or
stay near a window. Under certain atmospheric conditions, window's can be
shattered by a multi-megaton explosion a hundred miles away.
     The sound of explosions. The thunderous booms of the initial SLBM
explosions would be heard over almost all parts of the United States. Persons
one hundred miles away from a nuclear explosion may receive their first
warning by hearing it about 7-1/2 minutes later. Most would have time to
reach nearby shelter before the lCBMs begin to explode.
     Loss of electric power and communications. If the lights go out and you
find that many radio and TV stations are suddenly off the air, continue to
dial if you have a battery-powered radio, and try to find a station that is
still broadcasting.
     HOW TO RESPOND TO ATTACK WARNINGS DURING A WORSENING CRISIS
     If an attack takes place during a worsening crisis, the effectiveness of
warnings would be greater. Even if our government did not order an evacuation
of high-risk areas, millions of Americans would already have moved to safer
areas if they had learned that the enemy's urban civilians were evacuating or
that tactical nuclear weapons were being employed overseas. Many prudent
citizens would sleep inside the best available shelter and stay in or near
shelter most of their waking hours. Many people would have made or improved
family car small-group shelters and would have supplied them with most
essentials. The official warning systems would have been fully alerted and
improved.
     During such a tense crisis period, neighbors or people sheltered near
each other should have someone listen to radio stations at all times of the
day and night. If the situation worsened or an attack warning were broadcast,
the listener could alert the others.
     One disadvantage of waiting to build expedient shelters until there isa
crisis is that many of the builders are likely to be outdoors improving their
shelters when the first SLBMs are launched. The SLBM warheads may arrive so
soon that the civilian warning systems cannot respond in time. To reduce the
risk of being burned, persons working outdoors when expecting an attack
should wear shirts, hats, and gloves. They should jump into a shelter or
behind a nearby shielding object at the first warning, which may be the
sudden cut-off of some radio broadcasts.
     REMAINING INSIDE SHELTER
     Curiosity and ignorance probably will cause many people to come out of
shelters a few hours after an attack warning, if no blast or obvious fallout
has endangered their area. This is dangerous, because several hours after
almost all missiles have been launched the first enemy bombers may strike.
Cities and other targets that have been spared because missiles malfunctioned
or missed are likely to be destroyed by nuclear bombs dropped during the
first several days after the first attack.
     Most people should stay inside their shelters for at least two or three
days, even if they are in a locality far from a probable target and even if
fallout meter readings prove there is no dangerous fallout. Exceptions would
include some of the people who would need to improve shelters or move to
better shelters. Such persons could do so at relatively small risk during the
interval between the ICBM explosions and the arrival of enemy bombers and; or
the start of fallout deposition a few hours, later.
     Fallout would cover most of the United States within 12 hours after a
massive attack. People could rarely depend on information received from
distant radio stations regarding changing fallout dangers and advising when
and for how long they could go outside their shelters. Weather conditions
such as wind speed would cause fallout dangers to vary with distance. If not
forced by thirst or hunger to leave shelter, they should depend on their own
fallout meter readings or on radiation measurements made by neighbors or
local civil defense workers.     Copyright 1999 Nuclear War Survival Skills