The dominant form of breakage for sulfur is cleavage, where the mineral breaks along its natural planes of weakness. This results in the formation of smooth and flat surfaces.
The dominant form of breakage for sulfur is cleavage, where the sulfur atoms break along distinct planes due to its molecular structure.
For sulfur, the dominant form of breakage is the cleavage of S-S bonds, resulting in the formation of smaller sulfur molecules or atoms. This process is typically seen in the breakdown of sulfur compounds such as elemental sulfur or disulfides.
The dominant form of breakage for sulfur is brittle fracture, where the material breaks without significant deformation. This is due to the atomic structure of sulfur, which consists of weak van der Waals forces between the molecules, leading to easy cleavage and fracture.
The dominant type of breakage for sulfur is cleavage, which occurs along planes of weakness in the crystal structure, resulting in smooth, flat surfaces.
No, solid sulfur is not diatomic. Sulfur exists as S8 molecules in its solid form, with 8 sulfur atoms chemically bonded together to form a puckered ring structure.
The dominant form of breakage for sulfur is cleavage, where the sulfur atoms break along distinct planes due to its molecular structure.
For sulfur, the dominant form of breakage is the cleavage of S-S bonds, resulting in the formation of smaller sulfur molecules or atoms. This process is typically seen in the breakdown of sulfur compounds such as elemental sulfur or disulfides.
The dominant form of breakage for sulfur is brittle fracture, where the material breaks without significant deformation. This is due to the atomic structure of sulfur, which consists of weak van der Waals forces between the molecules, leading to easy cleavage and fracture.
The dominant type of breakage for sulfur is cleavage, which occurs along planes of weakness in the crystal structure, resulting in smooth, flat surfaces.
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Muscovite mica has perfect cleavage in one direction. It splits into thin sheets.
Sulfur reacts with chlorine to form sulfur dichloride, which has the chemical formula SCl2.
Muscovite mica's dominant type of breakage is perfect basal cleavage, which means it breaks easily along flat planes parallel to its basal structure. This results in thin, flexible sheets of mica being formed when it breaks.
It is stable
No, solid sulfur is not diatomic. Sulfur exists as S8 molecules in its solid form, with 8 sulfur atoms chemically bonded together to form a puckered ring structure.
Sulfur and iodine can form compounds in which they share electrons, such as sulfur diiodide (SI2). In this compound, the sulfur and iodine atoms share electrons to form chemical bonds.
The dominant type of breakage for muscovite mica is basal cleavage, which means it breaks easily along its cleavage planes into thin sheets. This property is due to the crystal structure of muscovite mica, which consists of layers that are weakly bonded and easily separated.