Read the text below and answer the question.
What Is a Neutron Bomb?
By Anne Marie Helmenstine, Ph.D., About.com Guide
(1) A neutron bomb, also called an enhanced radiation bomb, is a type of thermonuclear
weapon. An enhanced radiation bomb is any weapon which uses fusion to enhance the production
of radiation beyond that which is normal for an atomic device. In a neutron bomb, the burst of
neutrons generated by the fusion reaction is intentionally allowed to escape using X-ray mirrors and
an atomically inert shell casing, such as chromium or nickel. The energy yield for a neutron bomb
may be as little as half that of a conventional device, though radiation output is only slightly less.
Although considered to be 'small' bombs, a neutron bomb still has a yield in the tens or hundreds of
kilotons range. Neutron bombs are expensive to make and maintain because they require
considerable amounts of tritium, which has a relatively short half-life (12.32 years). Manufacture of
the weapons requires that a constant supply of tritium of be available. Neutron bombs have a
relatively short shelf-life.
(13) U.S. research on neutron bombs began in 1958 at the University of California's
Lawrence Radiation Laboratory under the direction of Edward Teller. News that a neutron bomb
was under development was publically released in the early 1960s. It is thought that the first
neutron bomb was built by scientists at the Lawrence Radiation Laboratory in 1963, and was tested
underground 70 mi. north of Las Vegas, also in 1963. The first neutron bomb was added to the U.S.
weapons arsenal in 1974. That bomb was designed by Samuel Cohen and was produced at the
Lawrence Livermore National Laboratory.
(21) The primary strategic uses of a neutron bomb would be as an anti-missile device, to kill
soldiers who are protected by armor, to temporarily or permanently disable armored targets, or to
take out targets fairly close to friendly forces. It is untrue that neutron bombs leave buildings and
other structures intact. This is because the blast and thermal effects are damaging much further out
than the radiation. Although military targets may be fortified, civilian structures are destroyed by a
relatively mild blast. Armor, on the other hand, isn't affected by thermal effects or the blast except
very near to ground zero. However, armor, and the personnel directing, it is damaged by the intense
radiation of a neutron bomb. In the case of armored targets, the lethal range from neutron bombs
greatly exceeds that of other weapons. Also, the neutrons interact with the armor and can make
armored targets radioactive and unusable (usually 24-48 hours). For example, M-1 tank armor
includes depleted uranium, which can undergo fast fission and can be made to be radioactive when
bombarded with neutrons. As an anti-missile weapon, enhanced radiation weapons can intercept
and damage the electronic components of incoming warheads with the intense neutron flux
generated upon their detonation.
(Taken from the website: http://chemistry.about.com/od/chemistryfaqs/f/neutronbomb.htm).
In the sentence, “An enhanced radiation bomb is any weapon which uses fusion to enhance the production of radiation beyond that which is normal for an atomic device”, the underlined relative pronoun which refers to the word
Read the text below and answer the question.
What Is a Neutron Bomb?
By Anne Marie Helmenstine, Ph.D., About.com Guide
(1) A neutron bomb, also called an enhanced radiation bomb, is a type of thermonuclear
weapon. An enhanced radiation bomb is any weapon which uses fusion to enhance the production
of radiation beyond that which is normal for an atomic device. In a neutron bomb, the burst of
neutrons generated by the fusion reaction is intentionally allowed to escape using X-ray mirrors and
an atomically inert shell casing, such as chromium or nickel. The energy yield for a neutron bomb
may be as little as half that of a conventional device, though radiation output is only slightly less.
Although considered to be 'small' bombs, a neutron bomb still has a yield in the tens or hundreds of
kilotons range. Neutron bombs are expensive to make and maintain because they require
considerable amounts of tritium, which has a relatively short half-life (12.32 years). Manufacture of
the weapons requires that a constant supply of tritium of be available. Neutron bombs have a
relatively short shelf-life.
(13) U.S. research on neutron bombs began in 1958 at the University of California's
Lawrence Radiation Laboratory under the direction of Edward Teller. News that a neutron bomb
was under development was publically released in the early 1960s. It is thought that the first
neutron bomb was built by scientists at the Lawrence Radiation Laboratory in 1963, and was tested
underground 70 mi. north of Las Vegas, also in 1963. The first neutron bomb was added to the U.S.
weapons arsenal in 1974. That bomb was designed by Samuel Cohen and was produced at the
Lawrence Livermore National Laboratory.
(21) The primary strategic uses of a neutron bomb would be as an anti-missile device, to kill
soldiers who are protected by armor, to temporarily or permanently disable armored targets, or to
take out targets fairly close to friendly forces. It is untrue that neutron bombs leave buildings and
other structures intact. This is because the blast and thermal effects are damaging much further out
than the radiation. Although military targets may be fortified, civilian structures are destroyed by a
relatively mild blast. Armor, on the other hand, isn't affected by thermal effects or the blast except
very near to ground zero. However, armor, and the personnel directing, it is damaged by the intense
radiation of a neutron bomb. In the case of armored targets, the lethal range from neutron bombs
greatly exceeds that of other weapons. Also, the neutrons interact with the armor and can make
armored targets radioactive and unusable (usually 24-48 hours). For example, M-1 tank armor
includes depleted uranium, which can undergo fast fission and can be made to be radioactive when
bombarded with neutrons. As an anti-missile weapon, enhanced radiation weapons can intercept
and damage the electronic components of incoming warheads with the intense neutron flux
generated upon their detonation.
(Taken from the website: http://chemistry.about.com/od/chemistryfaqs/f/neutronbomb.htm).
It is CORRECT to say about Neutron Bombs that
Read the text below and answer the question.
What Is a Neutron Bomb?
By Anne Marie Helmenstine, Ph.D., About.com Guide
(1) A neutron bomb, also called an enhanced radiation bomb, is a type of thermonuclear
weapon. An enhanced radiation bomb is any weapon which uses fusion to enhance the production
of radiation beyond that which is normal for an atomic device. In a neutron bomb, the burst of
neutrons generated by the fusion reaction is intentionally allowed to escape using X-ray mirrors and
an atomically inert shell casing, such as chromium or nickel. The energy yield for a neutron bomb
may be as little as half that of a conventional device, though radiation output is only slightly less.
Although considered to be 'small' bombs, a neutron bomb still has a yield in the tens or hundreds of
kilotons range. Neutron bombs are expensive to make and maintain because they require
considerable amounts of tritium, which has a relatively short half-life (12.32 years). Manufacture of
the weapons requires that a constant supply of tritium of be available. Neutron bombs have a
relatively short shelf-life.
(13) U.S. research on neutron bombs began in 1958 at the University of California's
Lawrence Radiation Laboratory under the direction of Edward Teller. News that a neutron bomb
was under development was publically released in the early 1960s. It is thought that the first
neutron bomb was built by scientists at the Lawrence Radiation Laboratory in 1963, and was tested
underground 70 mi. north of Las Vegas, also in 1963. The first neutron bomb was added to the U.S.
weapons arsenal in 1974. That bomb was designed by Samuel Cohen and was produced at the
Lawrence Livermore National Laboratory.
(21) The primary strategic uses of a neutron bomb would be as an anti-missile device, to kill
soldiers who are protected by armor, to temporarily or permanently disable armored targets, or to
take out targets fairly close to friendly forces. It is untrue that neutron bombs leave buildings and
other structures intact. This is because the blast and thermal effects are damaging much further out
than the radiation. Although military targets may be fortified, civilian structures are destroyed by a
relatively mild blast. Armor, on the other hand, isn't affected by thermal effects or the blast except
very near to ground zero. However, armor, and the personnel directing, it is damaged by the intense
radiation of a neutron bomb. In the case of armored targets, the lethal range from neutron bombs
greatly exceeds that of other weapons. Also, the neutrons interact with the armor and can make
armored targets radioactive and unusable (usually 24-48 hours). For example, M-1 tank armor
includes depleted uranium, which can undergo fast fission and can be made to be radioactive when
bombarded with neutrons. As an anti-missile weapon, enhanced radiation weapons can intercept
and damage the electronic components of incoming warheads with the intense neutron flux
generated upon their detonation.
(Taken from the website: http://chemistry.about.com/od/chemistryfaqs/f/neutronbomb.htm).
We can say that the Neutron Bombs can
Read the text below and answer the question.
Nerve agents the most deadly of recognized chemical weapons, can kill within 10 minutes
By Brian Vastag, August 21, 2013
(1) The descriptions of victims arriving at clinics near Damascus, Syria, on Wednesday
point to possible signs of poisoning by a nerve agent, the most deadly of the seven types of
chemical weapons recognized by experts.
(4) Nerve agents can kill quickly, within 10 minutes. Initial symptoms include salivation,
constriction of the pupils and a feeling of tightness in the chest. At high doses, muscles clench,
twitch and spasm.
(7) Nerve agents kill by blocking an enzyme critical for normal nerve function. This
enzyme, acetylcholinesterase, deactivates a signal that tells nerve cells to fire. With the enzyme
blocked, the signaling molecule, acetylcholine, builds up, pushing nerves into a constantly aroused,
or “on,” state. As nerves continually fire, muscles — including the heart and those controlling
breathing — spasm.
(12) While tiny doses can kill, people can survive low exposures. Sarin, in particular, is not
easy to weaponize. For maximum lethality, it must be aerosolized into fine droplets, smaller around
than the width of a human hair. Such particles are easily absorbed through the lining of the lungs
but are heavy enough so they are not breathed back out.
(17) The Aum Shinrikyo cult in Japan killed 12 Tokyo subway riders with liquid sarin in
1995, but had the terrorists more effectively weaponized it as gas, many hundreds could have died.
“It’s difficult to deliver, and it’s not a particularly easy weapon to deal with,” Blair said.
(21) Videos that surfaced Wednesday showed first-responders tending to alleged poisoning
victims in Syria. If the videos are authentic, they lead Blair to think that sarin was not used in the
attacks, as it can linger on the clothing of victims and affect bystanders.
(25) The Syrian government may possess another category of chemical weapons, choking
agents, which include chlorine gas. Dating to World War I, choking agents kill much more slowly
than nerve agents, with symptoms appearing in two to four hours. Death occurs in about 24 hours.
(29) These gasses kill by “dry-land drowning,” triggering fluid buildup in the lungs, so it
doesn’t let you breath.
(31) Blister agents, also dating to World War I, cause nasty burns, with mustard gas — made
from sulfur or nitrogen — as the classic example. Blister agents can be dispersed as liquid or vapor
and can linger for days. Blindness, lung damage and bone marrow suppression can occur after
sublethal doses.
(35) Blood agents, such as cyanide, are another category of chemical weapons, but the
Organization for the Prohibition of Chemical Weapons says there are no confirmed reports of these
agents ever being used during war.
(38) The Chemical Weapons Convention — which the United States has signed but Syria
has not — allows use of riot control agents, or tear gas, by law enforcement.
(40) Police in the United States routinely use tear gas to disperse crowds. And while
generally thought of as non-lethal, tear gas can be fatal in an enclosed space, by interfering with
breathing.
(43) The two most common types of riot control agents are chloroacetophenone, also known
as phenacyl chloride or CN, and chlorobenzylidene malononitrile, known as CS.
(45) Opposition leaders have in the past accused the Syrian government of deploying
another type of chemical as a weapon — white phosphorous, which is not covered by the Chemical
Weapons Convention. White phosphorous is often used in war as a tracer, to illuminate targets and
aircraft landing sites. But if dropped on a person, white phosphorous can melt skin and will keep
doing so for hours.
(Taken and adapted from the website: http://articles.washingtonpost.com)
The nerve agent
Read the text below and answer the question.
Nerve agents the most deadly of recognized chemical weapons, can kill within 10 minutes
By Brian Vastag, August 21, 2013
(1) The descriptions of victims arriving at clinics near Damascus, Syria, on Wednesday
point to possible signs of poisoning by a nerve agent, the most deadly of the seven types of
chemical weapons recognized by experts.
(4) Nerve agents can kill quickly, within 10 minutes. Initial symptoms include salivation,
constriction of the pupils and a feeling of tightness in the chest. At high doses, muscles clench,
twitch and spasm.
(7) Nerve agents kill by blocking an enzyme critical for normal nerve function. This
enzyme, acetylcholinesterase, deactivates a signal that tells nerve cells to fire. With the enzyme
blocked, the signaling molecule, acetylcholine, builds up, pushing nerves into a constantly aroused,
or “on,” state. As nerves continually fire, muscles — including the heart and those controlling
breathing — spasm.
(12) While tiny doses can kill, people can survive low exposures. Sarin, in particular, is not
easy to weaponize. For maximum lethality, it must be aerosolized into fine droplets, smaller around
than the width of a human hair. Such particles are easily absorbed through the lining of the lungs
but are heavy enough so they are not breathed back out.
(17) The Aum Shinrikyo cult in Japan killed 12 Tokyo subway riders with liquid sarin in
1995, but had the terrorists more effectively weaponized it as gas, many hundreds could have died.
“It’s difficult to deliver, and it’s not a particularly easy weapon to deal with,” Blair said.
(21) Videos that surfaced Wednesday showed first-responders tending to alleged poisoning
victims in Syria. If the videos are authentic, they lead Blair to think that sarin was not used in the
attacks, as it can linger on the clothing of victims and affect bystanders.
(25) The Syrian government may possess another category of chemical weapons, choking
agents, which include chlorine gas. Dating to World War I, choking agents kill much more slowly
than nerve agents, with symptoms appearing in two to four hours. Death occurs in about 24 hours.
(29) These gasses kill by “dry-land drowning,” triggering fluid buildup in the lungs, so it
doesn’t let you breath.
(31) Blister agents, also dating to World War I, cause nasty burns, with mustard gas — made
from sulfur or nitrogen — as the classic example. Blister agents can be dispersed as liquid or vapor
and can linger for days. Blindness, lung damage and bone marrow suppression can occur after
sublethal doses.
(35) Blood agents, such as cyanide, are another category of chemical weapons, but the
Organization for the Prohibition of Chemical Weapons says there are no confirmed reports of these
agents ever being used during war.
(38) The Chemical Weapons Convention — which the United States has signed but Syria
has not — allows use of riot control agents, or tear gas, by law enforcement.
(40) Police in the United States routinely use tear gas to disperse crowds. And while
generally thought of as non-lethal, tear gas can be fatal in an enclosed space, by interfering with
breathing.
(43) The two most common types of riot control agents are chloroacetophenone, also known
as phenacyl chloride or CN, and chlorobenzylidene malononitrile, known as CS.
(45) Opposition leaders have in the past accused the Syrian government of deploying
another type of chemical as a weapon — white phosphorous, which is not covered by the Chemical
Weapons Convention. White phosphorous is often used in war as a tracer, to illuminate targets and
aircraft landing sites. But if dropped on a person, white phosphorous can melt skin and will keep
doing so for hours.
(Taken and adapted from the website: http://articles.washingtonpost.com)
According to the text, we can say that
Read the text below and answer the question.
Nerve agents the most deadly of recognized chemical weapons, can kill within 10 minutes
By Brian Vastag, August 21, 2013
(1) The descriptions of victims arriving at clinics near Damascus, Syria, on Wednesday
point to possible signs of poisoning by a nerve agent, the most deadly of the seven types of
chemical weapons recognized by experts.
(4) Nerve agents can kill quickly, within 10 minutes. Initial symptoms include salivation,
constriction of the pupils and a feeling of tightness in the chest. At high doses, muscles clench,
twitch and spasm.
(7) Nerve agents kill by blocking an enzyme critical for normal nerve function. This
enzyme, acetylcholinesterase, deactivates a signal that tells nerve cells to fire. With the enzyme
blocked, the signaling molecule, acetylcholine, builds up, pushing nerves into a constantly aroused,
or “on,” state. As nerves continually fire, muscles — including the heart and those controlling
breathing — spasm.
(12) While tiny doses can kill, people can survive low exposures. Sarin, in particular, is not
easy to weaponize. For maximum lethality, it must be aerosolized into fine droplets, smaller around
than the width of a human hair. Such particles are easily absorbed through the lining of the lungs
but are heavy enough so they are not breathed back out.
(17) The Aum Shinrikyo cult in Japan killed 12 Tokyo subway riders with liquid sarin in
1995, but had the terrorists more effectively weaponized it as gas, many hundreds could have died.
“It’s difficult to deliver, and it’s not a particularly easy weapon to deal with,” Blair said.
(21) Videos that surfaced Wednesday showed first-responders tending to alleged poisoning
victims in Syria. If the videos are authentic, they lead Blair to think that sarin was not used in the
attacks, as it can linger on the clothing of victims and affect bystanders.
(25) The Syrian government may possess another category of chemical weapons, choking
agents, which include chlorine gas. Dating to World War I, choking agents kill much more slowly
than nerve agents, with symptoms appearing in two to four hours. Death occurs in about 24 hours.
(29) These gasses kill by “dry-land drowning,” triggering fluid buildup in the lungs, so it
doesn’t let you breath.
(31) Blister agents, also dating to World War I, cause nasty burns, with mustard gas — made
from sulfur or nitrogen — as the classic example. Blister agents can be dispersed as liquid or vapor
and can linger for days. Blindness, lung damage and bone marrow suppression can occur after
sublethal doses.
(35) Blood agents, such as cyanide, are another category of chemical weapons, but the
Organization for the Prohibition of Chemical Weapons says there are no confirmed reports of these
agents ever being used during war.
(38) The Chemical Weapons Convention — which the United States has signed but Syria
has not — allows use of riot control agents, or tear gas, by law enforcement.
(40) Police in the United States routinely use tear gas to disperse crowds. And while
generally thought of as non-lethal, tear gas can be fatal in an enclosed space, by interfering with
breathing.
(43) The two most common types of riot control agents are chloroacetophenone, also known
as phenacyl chloride or CN, and chlorobenzylidene malononitrile, known as CS.
(45) Opposition leaders have in the past accused the Syrian government of deploying
another type of chemical as a weapon — white phosphorous, which is not covered by the Chemical
Weapons Convention. White phosphorous is often used in war as a tracer, to illuminate targets and
aircraft landing sites. But if dropped on a person, white phosphorous can melt skin and will keep
doing so for hours.
(Taken and adapted from the website: http://articles.washingtonpost.com)
The sentence, “The Syrian government may possess another category of chemical weapons” (line 25), has the corresponding passive sentence as in