Atomic nuclei are changed by nuclear reactions or radioactive disintegration.
By bombarding aluminum with alpha particles, this pair was able to change some of the Al-27 nuclei into P-30 nuclei.
Some protists have two nuclei.
Nucleus is singular; the plural form is nuclei (or some prefer nucleuses).
Nuclei can vary in size depending on the type of cell. Generally, the nuclei of cells within the same species are similar in size, but there can be variations between different types of cells. Some cells, like muscle cells and some liver cells, may have multiple nuclei.
The pons contains nuclei involved in various functions such as sleep, respiration, taste, hearing, and eye movement. Some specific nuclei found in the pons include the pontine nuclei, locus coeruleus, and the abducens nucleus.
Some types of cells, including red blood cells as an example, do not contain nuclei, or a nucleus. The nucleus is the "brain" of a cell. Both animal and plant cells contain nuclei.
The process of nuclear fusion involves a change in density as lighter atomic nuclei combine to form heavier nuclei, releasing a large amount of energy in the process. This is the process that powers the sun and other stars.
Eukaryotic cells do contain nucleus, although some may contain more than one nuclei.
More nuclei of more atoms than you started out with, less mass than you started with, and some energy.
Pyknotic nuclei are nuclei that have undergone a process of condensation and shrinkage, typically seen in cells undergoing apoptosis or necrosis. They appear smaller, denser, and more basophilic (staining darkly with basic dyes) than normal nuclei. This morphological change is indicative of irreversible cellular damage and is often associated with the final stages of cell death. Pyknotic nuclei can be a key histological feature in diagnosing various pathological conditions.
No, cells can have nuclei irrespective of whether they are plant or animal; some don't however (red blood cells for example).
In plants, trichome cells generally have visible nuclei, as they are part of the cellular structure. However, the visibility of the nuclei can depend on the method of observation and the specific type of trichome. For instance, under a microscope, the nuclei can often be seen in fresh or properly prepared samples. In some cases, staining techniques may be used to enhance the visibility of the nuclei within trichome cells.