No mineral. Two metals- uranium and plutonium- are used in atomic bombs.
An atomic bond is a bond between two (or more) atoms. Atoms like to have a valence shell of 8 electrons, and they bond to complete their octet. When these octets are fulfilled and the atoms are "happy", then you have a stable molecule. But fluorine, for example, is highly reactive and unstable. It really wants an electron to complete it's octet, and so it will react with many things in an attempt to fill up it's valence shell. The bond is what keeps atoms in a stable state.
The definition for a mineral is: Mineral - A naturally occurring solid with a highly ordered atomic arrangement and a definite (but not fixed) chemical composition. It is usually formed by inorganic processes. This definition is drawn straight from a book called The 22nd edition of the Manual of Mineral Science by Cornelis Klein. Key words/phrases are: -natural (they are formed naturally on earth) -highly ordered atomic arrangement -definite but not fixed chemical composition (ex: Quartz is always SiO2 or some form of that) -formed inorganically (this is currently being debated because it is thought that some minerals may actually have help from organic substances.)
A mineral is a naturally occurring solid formed throughgeological processes that has a characteristic chemical composition, a highly ordered atomic structure, and specific physical properties. Minerals in composition from pure elements and simple salts to very complex silicates with thousands of known forms The study of minerals is called mineralogy. A mineral is an element or chemical compound that is normally crystalline and that has been formed as a result of geological processes. Physical properties commonly used are: Crystal structure and habit: See the above discussion of crystal structure. A mineral may show good crystal habit or form, or it may be massive, granular or compact with only microscopically visible crystals. Hardness: the physical hardness of a mineral is usually measured according to the Mohs scale. This scale is relative and goes from 1 to 10. Minerals with a given Mohs hardness can scratch the surface of any mineral that has a lower hardness than itself.
mineral is a naturally occurring solid chemical substance formed through biogeochemical processes, having characteristic chemical composition, highly ordered atomic structure, and specific physical properties. By comparison, a rock is an aggregate of minerals and/or mineraloids and does not have a specific chemical composition. Minerals range in composition from pure elements and simple salts to very complex silicates with thousands of known forms.[1] The study of minerals is called mineralogy.Contents[hide] 1 Mineral definition and classification2 Crystal structure 2.1 Mineral groups and solid solution3 Differences between minerals and rocks 3.1 Mineral composition of rocks4 Physical properties of minerals5 Chemical properties of minerals 5.1 Silicate class5.2 Carbonate class5.3 Sulfate class5.4 Halide class5.5 Oxide class5.6 Sulfide class5.7 Phosphate class5.8 Element class5.9 Organic class6 See also7 References8 External links
Highly variable. Are you talking crystals, or massive material for carving? It's a common mineral, seldom too valuable, though undamaged and colorful crystals can be worth hundreds.
Uranium is a highly reactive mineral that is used as a source of atomic energy for bombs and nuclear powered generating plants
Uranium is a highly reactive mineral that is used as a source of atomic energy for bombs and nuclear powered generating plants
No mineral. Two metals- uranium and plutonium- are used in atomic bombs.
it is uranium
Sodium is very reactive. Highly reactive with water. eleven is the atomic number.
does uranium rust
nascent
A mineral is a naturally occurring solid with a fixed chemical composition, and a highly ordered atomic arrangement.
Cerium is reactive but not highly reactive.
Sodium is a major mineral and is found in the fluid surrounding the cells in your body
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)