bergeron
Snow
When a liquid hits it's freezing point (0 Degrees Celsius) the liquid atoms start to crystallize and expand. Thus, creating ice! when the ice melts, the atoms separate again and decrease in size. Thus, liquid! There you go!
hydrogen nuclei fuse forming helium and releasing energy
This process through which unstable nuclei emit radiation is called radioactive decay. It also is called nuclear decay, and it is a natural process in which an atom of an isotope decomposes into a new element.
The process in which lighter elements stick together to create heavier elements is known as fusion. This is the process that will be used in the synthesis of a heavier atomic nuclei.
The Bergeron process and the collision-coalescence process play a role in the freezing nuclei.
The Bergeron Process
Stars obtain energy through the majority of their lives by the process of thermonuclear fusion of the nuclei of light elements to produce nuclei of heavier elements. Initially the processes fuses hydrogen nuclei, producing helium nuclei (similar to what hydrogen bombs do), but the process ceases when it produces nickel and iron nuclei at which point the star begins dying as it has run out of nuclear fuel.
Condensation Nuclei's a microscopic particle of material such as salt and smoke around which a water droplet can begin to form; a freezing nucleus is a microscopic particle of clay, dust or smoke around which an ice crystal may form in a cloud.
Snow
Karyogamy is the fusion of the nuclei in the cell, while Plasmogamy is the fusion of cytoplasm in the cell, but not the nuclei.
Nuclear fusion
FUSION
Fission
Chemical bonding is the term that describes the process when two or more atoms bond together. The bond is caused by electrostatic attraction between charges of nuclei and electrons or dipole-dipole interaction.
No. Nuclei are objects, nuclear fusion is a process in which those objects join to make bigger nuclei.
radioactive