Difference between revisions of "Nuclear Energy"

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Nuclear refers to a reaction caused by the power of an [[atom]]. The main uses of nuclear technology is in nuclear reactors, which use the energy in an atom to create power, or nuclear weapons, which use the energy in warfare. There are two types of reactions, nuclear fission and nuclear fusion.
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'''Nuclear energy''' is [[energy]] gained from the destruction of subatomic particles during nuclear fission or fusion. The main uses of nuclear technology is in nuclear reactors, which use the energy in an atom to create power, or nuclear weapons, which use the energy in warfare. There are two types of reactions, nuclear fission and nuclear fusion.  [[France]] is the nation with the greatest reliance on nuclear energy for electric generation.
  
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[[Image:Energy.jpg|thumb|350px|left|a significant share of U.S. energy is nuclear]]
 
==Theory==
 
==Theory==
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The energy released from a nuclear fission device is given by the equation [[E=mc²]]. Spelled out, the energy of a physical system is equal to the system's mass multiplied by the speed of light squared. (In [[natural units]], the equation would be simplified to ''E''=''m''.)  This equation is the formula for the energy contained in an atom. This energy is released in a nuclear weapon when a speeding [[neutron]] collides with the atom, blasting it apart, and releasing the binding energy of the atom. In a nuclear weapon, the atom blasted apart then releases other neutrons which collide with other atoms. This keeps occurring until there are no atoms left to destroy. This is known as a nuclear chain reaction. In a nuclear fission power plant, however, the nuclear core is designed so that a runaway chain reaction cannot occur, by limiting the number of neutrons available to continue the reaction by the use of control rods.<ref>http://hyperphysics.phy-astr.gsu.edu/hbase/nucene/control.html</ref>
  
The science behind a nuclear fission device is [[Einstein]]'s equation <math>E= MC</math><sup>2</sup>. Spelled out, mass multiplied by the speed of light squared. This equation is the formula for the energy contained in an atom. This energy is released in a nuclear weapon when a speeding [[neutron]] collides with the atom, blasting it apart, and releasing the bonding energy of the atom. In a nuclear weapon, the atom blasted apart then releases two other neutrons which collide with two other atoms. This keeps occuring until there are no atoms left to destroy. This is known as a nuclear chain reaction. In a nuclear fission power plant, however, the nuclear core is designed so that a chain reaction cannot occur, because there are not enough atoms for it.
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Nuclear fusion, on the other hand, is based on putting atoms together, as opposed to breaking them apart in fission, heavier atoms often require less bonding energy than the combined original binding energies of the fusing lighter atoms.
 
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Nuclear fusion, on the other hand, is based on putting atoms together, as opposed to breaking them apart in fission, heavier atoms often require less bonding energy than the combined original bonding energies of the fusing lighter atoms.
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==Weapon==
 
==Weapon==
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==Power==
 
==Power==
 
[[Image:Nuclear Power Plant.jpg|thumb|right|Nuclear power plant]]
 
[[Image:Nuclear Power Plant.jpg|thumb|right|Nuclear power plant]]
Nuclear fission has existed for power over fifty years, starting in the [[Soviet Union]]. It currently supplies electricity to many of the nations of the world. The nuclear industry was booming in the 1960's and 1970's, but after fiascos such as Three Mile Island and Chernobyl nuclear construction has died down.
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Nuclear fission has existed for power over fifty years, starting with the [[Manhattan Project]]. It currently supplies electricity to many of the nations of the world. The nuclear industry was booming in the 1960s and 1970s, but political opposition stopped nuclear construction in the USA. There is talk of renewing construction because it is the cleanest and cheapest source of large quantities of power, it doesn't depend on Mideast oil, and it doesn't emit greenhouse gases.
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Nuclear fusion has been sought vigorously as a clean energy source, but the end result in every try has been less energy resulting in the reaction than was put into it. Nevertheless, several countries still invest heavily in nuclear fusion energy programs in the hope that someday they may become viable.
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Many man-made satellites rely upon nuclear energy to power their electric systems.
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==Controversy==
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An environmentalist's ideal energy is one that emits no greenhouse gasses and is efficient. Nuclear energy is not only competitive with coal energy, but by an environmentalist standards, "cleaner." Environmentalists claim that they want the cleanest, most efficient energy source, but despise domestic nuclear energy use while at the same time ardently support Iran obtaining nuclear energy. This negates any validity they had towards nuclear energy being unsafe. H.R. 391 <ref>http://www.opencongress.org/bill/111-h391/show</ref> would amend the Clean Air Act of 1963 <ref>http://www.epa.gov/air/caa/</ref> to not allow congress to regulate greenhouse gas emissions. This would make the energy industry more competitive. As all free market economists know, the product of competition is lower prices at better quality, ultimately benefiting the American people the most.
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Recently, many liberal American politicians have renewed their efforts to scale back nuclear power in the US; liberal pundits have similarly pushed for the elimination of nuclear power in the US despite the lack of greenhouse gas output from this power source. Several nations (e.g. Germany) have set down plans to entirely eliminate nuclear power in the coming decades. The argument has been put forth that the US and other countries should replace nuclear power production with presumably safer "renewable" power sources (i.e. wind and solar power); however, nuclear power is in general very safe and these alternative power sources fail to provide baseload power. Thus, the elimination of nuclear power, in addition to eliminating a clear power source, will likely cause massive problems in the electrical infrastructure of these countries and potentially the US if the current sentiment regarding nuclear power in the US does not change.  
  
Nuclear fusion, due to its less dangerous nature, and it being a clean energy source, has been sought vigorously, but the end result in every try has been less energy resulting in the reaction than was gotten out of it. The intense heat that is necessary for such a reaction to occur is the reason for this. Nevertheless, several countries still invest heavily in nuclear fusion energy programs in the hope that someday they may become viable.
 
  
==Culture==
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[[File:Damage Dai Ichi Power Plant Japan.jpg|thumb|center|450px|Damaged Dai Ichi Power Plant, [[Japan]].]]
  
Nuclear weapons are often colloquially called "nukes."
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{{Clear}}
  
A nuclear fusion reactor was a central part of the 2004 film [[Spiderman 2]].
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==References==
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<references/>
  
[[category:science]]
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[[Category:Energy]]
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[[Category:Physics]]

Revision as of 20:42, July 29, 2016

Nuclear energy is energy gained from the destruction of subatomic particles during nuclear fission or fusion. The main uses of nuclear technology is in nuclear reactors, which use the energy in an atom to create power, or nuclear weapons, which use the energy in warfare. There are two types of reactions, nuclear fission and nuclear fusion. France is the nation with the greatest reliance on nuclear energy for electric generation.

a significant share of U.S. energy is nuclear

Theory

The energy released from a nuclear fission device is given by the equation E=mc². Spelled out, the energy of a physical system is equal to the system's mass multiplied by the speed of light squared. (In natural units, the equation would be simplified to E=m.) This equation is the formula for the energy contained in an atom. This energy is released in a nuclear weapon when a speeding neutron collides with the atom, blasting it apart, and releasing the binding energy of the atom. In a nuclear weapon, the atom blasted apart then releases other neutrons which collide with other atoms. This keeps occurring until there are no atoms left to destroy. This is known as a nuclear chain reaction. In a nuclear fission power plant, however, the nuclear core is designed so that a runaway chain reaction cannot occur, by limiting the number of neutrons available to continue the reaction by the use of control rods.[1]

Nuclear fusion, on the other hand, is based on putting atoms together, as opposed to breaking them apart in fission, heavier atoms often require less bonding energy than the combined original binding energies of the fusing lighter atoms.

Weapon

Nuclear "mushroom cloud" at Hiroshima, Japan

A nuclear weapon is a weapon designed with a nuclear warhead. Nuclear weapons not only produce mass devastation in the blast radius, but also create a nuclear fallout for many years to come. Recently, there has been much fear of a terrorist state or organization getting hold of either a Soviet weapon or creating one of their own.

Nuclear fission based weapons occur by the nuclear chain reaction system, while thermonuclear weapons create nuclear fusion in their reaction.

Power

Nuclear power plant

Nuclear fission has existed for power over fifty years, starting with the Manhattan Project. It currently supplies electricity to many of the nations of the world. The nuclear industry was booming in the 1960s and 1970s, but political opposition stopped nuclear construction in the USA. There is talk of renewing construction because it is the cleanest and cheapest source of large quantities of power, it doesn't depend on Mideast oil, and it doesn't emit greenhouse gases.

Nuclear fusion has been sought vigorously as a clean energy source, but the end result in every try has been less energy resulting in the reaction than was put into it. Nevertheless, several countries still invest heavily in nuclear fusion energy programs in the hope that someday they may become viable.

Many man-made satellites rely upon nuclear energy to power their electric systems.

Controversy

An environmentalist's ideal energy is one that emits no greenhouse gasses and is efficient. Nuclear energy is not only competitive with coal energy, but by an environmentalist standards, "cleaner." Environmentalists claim that they want the cleanest, most efficient energy source, but despise domestic nuclear energy use while at the same time ardently support Iran obtaining nuclear energy. This negates any validity they had towards nuclear energy being unsafe. H.R. 391 [2] would amend the Clean Air Act of 1963 [3] to not allow congress to regulate greenhouse gas emissions. This would make the energy industry more competitive. As all free market economists know, the product of competition is lower prices at better quality, ultimately benefiting the American people the most.

Recently, many liberal American politicians have renewed their efforts to scale back nuclear power in the US; liberal pundits have similarly pushed for the elimination of nuclear power in the US despite the lack of greenhouse gas output from this power source. Several nations (e.g. Germany) have set down plans to entirely eliminate nuclear power in the coming decades. The argument has been put forth that the US and other countries should replace nuclear power production with presumably safer "renewable" power sources (i.e. wind and solar power); however, nuclear power is in general very safe and these alternative power sources fail to provide baseload power. Thus, the elimination of nuclear power, in addition to eliminating a clear power source, will likely cause massive problems in the electrical infrastructure of these countries and potentially the US if the current sentiment regarding nuclear power in the US does not change.


Damaged Dai Ichi Power Plant, Japan.

References

  1. http://hyperphysics.phy-astr.gsu.edu/hbase/nucene/control.html
  2. http://www.opencongress.org/bill/111-h391/show
  3. http://www.epa.gov/air/caa/