Cleavage is related to the minerals atomic structure because minerals are arranged in crystal lattices . It's the shape of these lattices that determine the mineral's cleavage.
i think crystal habit is the minerals structure, while cleavage is the patter it breaks into.
The difference between a mineral that has cleavage and one that has fracture is that cleavage is the tendency of some minerals to brake along flat surfaces and fracture is the tendency of some minerals to brake unevenly along curved or irregular surfaces.
A lack of cleavage in minerals can be due to their atomic structure, which may not have planes of weakness along which the mineral can easily break. Alternatively, some minerals may exhibit fracture instead of cleavage, resulting in irregular or jagged surfaces when broken. Other factors such as impurities or deformation during crystal growth can also affect the cleavage of a mineral.
In science, cleavage refers to the way in which a mineral breaks along certain planes due to its atomic structure. It results in smooth, flat surfaces that are often parallel and reflective of the internal arrangement of atoms within the mineral. Cleavage is one of the properties used to identify minerals.
Most minerals have a characteristic type of cleavage, which refers to the way they break along specific planes due to their internal atomic structure. Cleavage can be described as either perfect, good, or poor, depending on how easily the mineral breaks apart.
Cleavage is related to the minerals atomic structure because minerals are arranged in crystal lattices . It's the shape of these lattices that determine the mineral's cleavage.
A mineral hasn't an atomic number.
"Neon" is a noble gas and does not exhibit cleavage, as cleavage is a property related to the way minerals break along certain planes due to their internal atomic structure.
i think crystal habit is the minerals structure, while cleavage is the patter it breaks into.
The difference between a mineral that has cleavage and one that has fracture is that cleavage is the tendency of some minerals to brake along flat surfaces and fracture is the tendency of some minerals to brake unevenly along curved or irregular surfaces.
Some minerals that have only one direction of cleavage include mica (like muscovite), halite (salt), and graphite. Cleavage is the tendency of minerals to break along preferred planes due to their atomic structure.
Cleavage in minerals can be identified by observing how the mineral breaks along certain planes or directions, resulting in smooth, flat surfaces. This cleavage is a result of the internal atomic structure of the mineral. By examining the shape and pattern of the breakage, one can determine the cleavage of a mineral.
Cleavage. Minerals with cleavage break along specific planes, resulting in smooth and flat surfaces. The number and angle of cleavage planes depend on the mineral's atomic structure.
Imperfect cleavage is a type of cleavage seen in minerals where they break along irregular and rough surfaces rather than smooth, flat planes. This occurs because the mineral's atomic structure does not have consistent weak planes along which to cleave cleanly. Examples of minerals with imperfect cleavage include calcite and fluorite.
Cleavage is the property that examines a mineral's ability to break into even pieces along specific planes or directions. Minerals with good cleavage will break cleanly and smoothly along these planes, while minerals with poor cleavage will break in irregular or jagged shapes. Cleavage is determined by the internal atomic structure of a mineral.
It means that the chemical bonds of the mineral aren't too strong along the lines and that when you break the mineral it'll break along those lines. please go to www.freewebs.com/mccniu (minerals aren't on it)
A lack of cleavage in minerals can be due to their atomic structure, which may not have planes of weakness along which the mineral can easily break. Alternatively, some minerals may exhibit fracture instead of cleavage, resulting in irregular or jagged surfaces when broken. Other factors such as impurities or deformation during crystal growth can also affect the cleavage of a mineral.