Nuclear fusion.. What is the claimed invention and how can it benefit us?

news that Primers facility scientists in the laboratory Lawrence Liver Moore in California They made history after being able to generate energy through nuclear fusion.

He adds that the new breakthrough could eventually lead to the generation of electricity that lights up our homes.

Nuclear reactors currently produce energy from nuclear fissionand although its emissions are zero, it produces toxic waste, while the energy generated by fusion does not lead to this result.

Nuclear fusion in a nutshell

• Nuclear fusion is a man-made process that replicates the energy model that powers the sun.
• Nuclear fusion occurs when two or more atoms fuse into a larger one and this process leads to the generation of a large amount of energy and heat.
• Scientists from all over the world have been studying nuclear fusion for decades, with the aim of reproducing nuclear energy, providing a new source of unlimited and carbon-free energy, which means that the energy is different from that produced by current reactors and is characterized by the production of dangerous nuclear waste.
• In nuclear fusion, scientists use deuterium and tritium, which are isotopes of hydrogen.
• An amount of deuterium filling a glass of water with a pinch of tritium can power a house for a year.
• The problem is that tritium is rare and difficult to obtain, although it can be synthesized.
• Unlike coal, you need only a small amount of hydrogen, which is the most abundant thing in the universe, said Julio Friedman, carbon stewardship chief scientist and former Livermore Laboratory official.
• He added: "Hydrogen is in the water, so the energy-generating substance is practically unlimited and it is clean".

How is nuclear fusion different from nuclear fission?

• When people think of nuclear power, they first think of cooling towers and mushroom clouds, but nuclear fusion is very different.
• Nuclear fusion occurs when two or more atoms come together, but nuclear fission is something else: it is the splitting of a larger atom into two or more smaller atoms.
  Nuclear fission is the type of energy that powers nuclear reactors in our world today.
• Nuclear power has zero emissions, according to the Ministry of Nuclear Energy, but it produces radioactive waste that poses safety risks, and although accidents at nuclear plants are few, when they do occur, the results are deadly and widespread, as is happened in Chernobyl and Fukushima.
• Nuclear fusion does not carry the same risks and the materials used in it are half as old as the materials used in fission.

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How can this invention benefit us?

• There are two main ways to produce energy through fusion, but they lead to the same result.
• The fusion of two atoms leads to the generation of a huge amount of heat, and this is the key to the production of energy, and this heat can be used to heat water, generate steam and spin turbines to generate energy, just like generating energy through nuclear fission of energy.
• The most important challenge in harnessing nuclear fusion is conserving energy long enough for electrical grids and power systems to function The scientist.

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CNN says scientists are in the ignition facility in a lab Lawrence Liver Moore in California They made history after being able to generate energy through nuclear fusion.

He adds that the new breakthrough could eventually lead to the generation of electricity that lights up our homes.

Nuclear reactors currently produce energy from nuclear fissionand although its emissions are zero, it produces toxic waste, while the energy generated by fusion does not lead to this result.

Nuclear fusion in a nutshell

• Nuclear fusion is a man-made process that replicates the energy model that powers the sun.
• Nuclear fusion occurs when two or more atoms fuse into a larger one and this process leads to the generation of a large amount of energy and heat.
• Scientists from all over the world have been studying nuclear fusion for decades, with the aim of reproducing nuclear energy, providing a new source of unlimited and carbon-free energy, which means that the energy is different from that produced by current reactors and is characterized by the production of dangerous nuclear waste.
• In nuclear fusion, scientists use deuterium and tritium, which are isotopes of hydrogen.
• An amount of deuterium filling a glass of water with a pinch of tritium can power a house for a year.
• The problem is that tritium is rare and difficult to obtain, although it can be synthesized.
• Unlike coal, you need only a small amount of hydrogen, which is the most abundant thing in the universe, said Julio Friedman, carbon stewardship chief scientist and former Livermore Laboratory official.
• He added: “Hydrogen is present in water, so the substance that leads to energy generation is practically unlimited and it’s clean.”

How is nuclear fusion different from nuclear fission?

• When people think of nuclear power, they first think of cooling towers and mushroom clouds, but nuclear fusion is very different.
• Nuclear fusion occurs when two or more atoms come together, but nuclear fission is something else: it is the splitting of a larger atom into two or more smaller atoms.
  Nuclear fission is the type of energy that powers nuclear reactors in our world today.
• Nuclear power has zero emissions, according to the Ministry of Nuclear Energy, but it produces radioactive waste that poses safety risks, and although accidents at nuclear plants are few, when they do occur, the results are deadly and widespread, as is happened in Chernobyl and Fukushima.
• Nuclear fusion does not carry the same risks and the materials used in it are half as old as the materials used in fission.

How can this invention benefit us?

• There are two main ways to produce energy through fusion, but they lead to the same result.
• The fusion of two atoms leads to the generation of a huge amount of heat, and this is the key to the production of energy, and this heat can be used to heat water, generate steam and spin turbines to generate energy, just like generating energy through nuclear fission of energy.
• The most important challenge in harnessing nuclear fusion is conserving energy long enough for electrical grids and power systems to function The scientist.