gravitational pull
Nuclear Fusion
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.
the energy production in the sun the hydrogen bomb
The sun shines due to nuclear fusion reactions that occur in its core. Hydrogen atoms fuse together to form helium, releasing a tremendous amount of energy in the process. This energy is what we see and feel as sunlight.
Stars shine because they are extremely hot with surface temperatures of thousands to tens of thousands of degrees. They are heated by a process called nuclear fusion, in which hydrogen atoms fuse together for form helium, releasing vast amounts of energy. The stars only appear small because they are unimaginably far away. They are, in reality, enormous, far larger than Earth. The stars are suns similar to our own, some even bigger and brighter, only appearing as tiny specks of light due to their great distance.
Data Mining
yes
Electricity is easy to transport over great distances; and it is easy to convert into other forms of energy.Electricity is easy to transport over great distances; and it is easy to convert into other forms of energy.Electricity is easy to transport over great distances; and it is easy to convert into other forms of energy.Electricity is easy to transport over great distances; and it is easy to convert into other forms of energy.
by photosynthesis. (not a great answer, look below) photosynthesis is a process in which the sun shines on plants and the sun mixes with the water and chlorophyll to create gluten (sugar). just to let you know, if you put CO2 into plants, O will come out by this process as well.
The two processes in the extraction of aluminium that require large amounts of energy are electrolysis of alumina to produce aluminium metal and the production of alumina from bauxite through the Bayer process. Both processes involve high temperatures and consume significant amounts of electricity.
No, the sun generates energy through nuclear fusion in its core, not through electrical energy. This process involves the fusion of hydrogen nuclei to form helium, releasing vast amounts of energy in the form of light and heat.
The manufacturing process of aluminum requires great amounts of electricity.
Chloroplasts convert light energy into chemical energy. The energy of light captured by pigment molecules, called chlorophylls, in chloroplasts is used to generate high-energy electrons with great reducing potential.
Because the energy released by nuclear fission is extremely great compared with the energy released by coal burning.
Nuclear Fusion
Nuclear Fusion
Nuclear Fusion