blue
Phophorus, whose allotropes are red phosphorus, white phosphorus , black phosphorus, violet phosphorus
The element is carbon, and the difference between these two allotropes is the crystal lattice formation that develops in each, based on where each is formed.
This may mean phosphorus which has a number of allotropes some of which are based on their colour White phosphorus - P4 red phosphorus - amorphous and three crystalline forms all polymeric in nature black phosphorus - three forms are known - again polymeric violet phosphorus (aqlso called Hittorfs phosphorus) As you can see some of the coloured forms exist in different crystalline forms and therefore colour alone is not a good indication of which allotrope is meant. The wikipedia artcle is inaccurate- if you can access Greenwood and Earnshaw "Chemistry of the e lements" that has a good write up.
Correct.Although they are based on the same element (carbon) they have vastly different structures and atomic arrangements, resulting in very different physical and chemical properties. Such forms are known chemically as allotropes.
Well they can come in all different colors based on genetics. But more common colors include black, brown, white, or spotted.
name the different allotropes of silicon?
Water is not an element. The element that is most present in the atmosphere is Nitrogen at about 70% (Oxygen is about 20%). I don't know about the most common element in the earth's crust though. I'd say that the most common element overall is Carbon (since all life is carbon based)
The first 20 elements, when heated, exhibit a range of colors due to their atomic emission spectra. Some common colors include lithium (red), sodium (yellow), potassium (violet), calcium (orange-red), and copper (blue-green). Each element emits a unique color based on the energy levels of its electrons.
Diamonds and graphite are both allotropes of carbon.
When an element is heated to incandescence, it emits light at specific wavelengths characteristic of that element. A spectroscope can separate these wavelengths, producing a unique spectral pattern called an emission spectrum. By analyzing this spectrum, scientists can identify the element present based on the specific wavelengths of light emitted.
The most common version of an element is its average atomic mass, which is a weighted average of all isotopes of that element based on their natural abundances. This average atomic mass is typically found on the periodic table.
The most common element in plant tissues is Carbon. This is why plants and animals are called carbon-based life forms; because we are made predominately out of carbon.