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They are Steroids, which are not soluble in water.
Fused heterocylic compounds is a heterocylic compound (eg. Furan) fused with another ring which can be either a carbon ring (benzene) or can be fused with another heterocylic ring(Pyridine,Pyrrole,...etc). Fused heterocyclics can be either 2 fused rings,3 rings or more. From the famous examples on fused heterocylic compounds: -Heroin -Indole -Morphine -Carbazole
Triglycerides are composed of three molecules of the alcohol glycerol. Phospholipids have two, rather than three, fatty acids attached to the molecule of glycerol. Steroids are composed of four fused carbon rings with various functional groups attached to them.
Fused joints, the type found in the cranium, don't provide any movement. They are called immovable joints for this reason.
Steroids are lipids characterized by a carbon skeleton consisting of four fused rings.
Silicon carbide is certainly not chemically equivalent to fused silica sand, because the carbide contains no oxygen and the sand contains no carbon.
The only element he has an affinity for is wind, which he has fused with the rasengan.
They are Steroids, which are not soluble in water.
glass is the most common material containing fused SiO2
No fusion, no element
Steroids
Actually fusing carbon, such as in a star will create one of several type of elements. In the vast majority of stars carbon is not fused at all, but depending on the star's mass carbon may fuse into neon, oxygen, magnesium, among a couple others. This happens in specific type of stars, at specific times in their lives. Fusing is different from chemical reactions. There are no chemical reactions that can make elements, but with nuclear transmutation you can do it. For example, in a star hydrogen is fused into helium, and sometimes helium into carbon.
Berrylium
the answer is "steroid".
A steroid is a type of organic compound that contains a specific arrangement of four rings that are joined to each other.
The final elements fused in a star of the mass of our Sun are Oxygen then Carbon. Therefore a white dwarf core could be regarded as a solid, gigantic diamond.
This could be a trick question. A diamond is an allotrope of the element carbon. In stars, which are giant fusion engines, hydrogen is fused into helium, and helium is fused into carbon. In a round about way, yes, diamonds can be made of helium and hydrogen. The carbon can be compressed and heated in a supernova at the end of its life, and diamonds can form. The carbon has to be transformed into diamond. But they diamonds are very, very tiny. Some meteorites contain thousands of diamonds, but they are so small that it is hard to see them with an optical microscope.