The fusion process involves the phase change of a substance from liquid to solid, which releases energy. To calculate the volume of liquid frozen that produced 1 kJ of energy, you can use the formula: ( Q = m \cdot L_f ), where ( Q ) is the energy released (1 kJ), ( m ) is the mass of the liquid, and ( L_f ) is the latent heat of fusion for the substance. Rearranging the formula allows you to find the mass of the liquid frozen, and knowing the density of the substance will enable you to convert this mass into volume.
Sure, you can get a tan from it, since the Sun is a big fusion power reactor. In the near future we will be able to build fusion reactors here on Earth. Google "ITER" to see how it's going. In the meantime I suppose you can say the fusion power is actually solar energy.
Hydrogen (essentially a proton-proton reaction)
Fusion is the process by which the sun produces energy. In the sun's core, hydrogen atoms fuse together to form helium, releasing large amounts of energy in the form of heat and light in the process. This continuous fusion reaction is what powers the sun and allows it to shine.
Yes, the heat produced by nuclear fusion in the core of a star is what makes the star glow and emit light and heat. This fusion process converts hydrogen into helium and releases energy in the form of light and heat.
No, the light produced from a meteor is not due to nuclear fusion. When a meteoroid enters Earth's atmosphere, the friction with air molecules causes it to heat up and glow, resulting in the light we see. This phenomenon is known as "incandescence."
Nuclear energy is produced by both fission and fusion processes.
1kJ 1/Hfusion g/mol ml/g liquid
Nuclear fusion and hydrogen.
Not fission. The sun's energy is produced by nuclear fusion, and that energy produced all the vegetation which turned into fossil fuel.
The main resource produced by fusion reactions is energy in the form of heat and light. This energy can be harnessed for various applications, such as generating electricity or powering spacecraft.
Fusion energy is not stored; it is produced through the fusion of atomic nuclei in a controlled environment, such as inside a fusion reactor. The energy produced can be used directly or converted to electricity. Fusion reactions require a constant input of fuel to sustain the process.
This is produced by nuclear fusion
Yes, fusion is exothermic until nickel & iron are produced.
Fusion, like fission, produces its energy mostly in the form of heat. Since this applies to atoms, it can also be seen as kinetic energy.
Sun energy is produced by the fusion of two hydrogen atoms under immense pressure and heat in the core of the sun. The chemical energy (energy stored in the bonds of atoms) is released during this fusion.
Nuclear energy is produced through fusion reactions. Fusion is the process in which two light atomic nuclei combine to form a heavier nucleus, releasing a large amount of energy in the process.
No, nuclear energy is not produced by sunlight. Nuclear energy is generated from the process of splitting atoms in a power plant, while sunlight produces solar energy through the fusion of hydrogen atoms in the sun.