It is the process that produces all the sun's energy
in nuclear fusion two small substances combine to give heavier substanceand give high energy
It is a nuclear fusion reaction between hydrogen atoms.
Nuclear fusion.
First, the Sun is pretty big, and there is a LOT of hydrogen. Second, nuclear fusion generates a WHOLE lot of energy.
1. Unlike fission, during fusion tremendous amount of energy is liberated. Hence fusion of a very small mass generates large amount of energy. 2. Unlike fission the products of fusion reactions are not radio-active. Thus they are harmless and can be replaced easily. 3. Highly penetrating radiations are liberated during fission, which are highly hazardous.
1. Unlike fission, during fusion tremendous amount of energy is liberated. Hence fusion of a very small mass generates large amount of energy. 2. Unlike fission the products of fusion reactions are not radio-active. Thus they are harmless and can be replaced easily. 3. Highly penetrating radiations are liberated during fission, which are highly hazardous.
The nuclear fusion of hydrogen into helium. The mass of the helium produced is slightly less than the mass of the hydrogen used to make it and this mass difference is released as energy (E=MC(squared)).
Nuclear Fusion
Nuclear fusion.
By heat released from continuous nuclear fission and fusion process.
nothing The Sun generates its energy by nuclear fusion of hydrogen nuclei into helium.
In nuclear fusion reaction two nuclei are combined by providing the energy.
First, the Sun is pretty big, and there is a LOT of hydrogen. Second, nuclear fusion generates a WHOLE lot of energy.
Nuclear fusion produces nuclear energy
By nuclear fusion - converting hydrogen-1 into helium-4.
Nuclear fusion. Stellar fusion involves a ton of different fusion reactions throughout the star's life. The primary and (usually) the longest burning is the fusion of hydrogen into helium. This consumes a great number of the nuclear energy in the sun, and it usually accounts for the type of fusion that goes on for most of the life of the star. This is the process.
Definition: energy from nuclear fission or fusion: the energy released by nuclear fission or fusion
Nuclear fusion.
1. Unlike fission, during fusion tremendous amount of energy is liberated. Hence fusion of a very small mass generates large amount of energy. 2. Unlike fission the products of fusion reactions are not radio-active. Thus they are harmless and can be replaced easily. 3. Highly penetrating radiations are liberated during fission, which are highly hazardous.