Nuclear fusion
what is The process of is when two atoms combine to form a largeer atom releasing energy
Nuclear Fusion.
Yes. Atoms can combine to form larger atoms in a process called nuclear fusion. This is what powers the sun.
3 Helium nuclei combine to form a carbon nucleus,releasing light energy
Mass. When you split a large atom (fission) into parts the mass of the parts is less then the original atom. The "lost" mass comes out as energy. When you combine two small atoms into a larger atom (fusion) , the larger atom has less mass then the two original atoms and the "lost" mass comes out as energy.
what is The process of is when two atoms combine to form a largeer atom releasing energy
Nuclear fusion
Nuclear Fusion.
nuclear fusion
The term for this process is " nuclear fusion."
Depending on how you combine them, either a molecule or another larger atom and some energy.
In nuclear fusion, energy is released when atoms are combined or fused together to form a larger atom. This is how the sun produces energy. In nuclear fission, atoms are split apart to form smaller atoms, releasing energy. Nuclear power plants use nuclear fission to produce electricity.
Yes. Atoms can combine to form larger atoms in a process called nuclear fusion. This is what powers the sun.
3 Helium nuclei combine to form a carbon nucleus,releasing light energy
The sun consists of hydrogen and helium atoms. The hydrogen atoms combine in a process called nuclear fusion, releasing energy and creating helium atoms.
The Sun is the primary energy source, and it produces energy through the process of nuclear fusion within its core. The Sun is a huge ball of gas, mostly hydrogen, and at the high density of its core, atoms can fuse to make larger atoms, releasing energy.
bond formation is an energy releasing process. the chemically bonded atoms are more stable than the separated atoms. gain in stability is always accompanied by a decrease in energy. besides, the opposite process, bond breaking requires energy to break the attraction between the bonded atoms.