I don't know exactly but I do have geoides that are ugly on the outside but when you open them up they have crystals on the inside.
The shape of a mineral depends on the chemical structure that the bonds form between atoms in the mineral. A cubic mineral (such as pyrite) has a chemical structure that, as bonds are made, a cubic shape is formed.
Texture in rocks is not the same as color or shape. Texture refers to the size, shape, and arrangement of mineral grains or crystals within a rock, while color refers to the outward appearance of the rock. Similarly, shape in rocks refers to their physical form or structure, and not the internal arrangement of mineral grains which defines texture.
In order to be a mineral, substances need to have fixed internal crystalline structure. Natural glass does not.
crystal shape
The appearance of a mineral can vary due to impurities, which can introduce colors or bands into the mineral. Other factors such as crystal structure, cleavage, and luster can also influence the overall appearance of a mineral. These variations in appearance are important for identifying and classifying minerals.
The internal structure of a mineral, characterized by its crystal lattice arrangement and chemical composition, directly influences its external appearance, including color, luster, and shape. For instance, the symmetry and bonding of atoms within a mineral determine its crystal form, which manifests as distinct geometric shapes on the outside. Additionally, impurities and defects in the internal structure can affect color and transparency, further impacting how the mineral is perceived visually. Therefore, understanding a mineral's internal structure is key to explaining its external characteristics.
The internal atomic structure of a mineral most likely determines its physical and chemical properties, such as hardness, color, cleavage, and crystal shape. It also influences how the mineral interacts with its environment and how it behaves in different conditions.
i think crystal habit is the minerals structure, while cleavage is the patter it breaks into.
yes
The crystal system a mineral belongs to relates most to the mineral's internal atomic structure and arrangement of atoms. This determines the shape and physical properties of the mineral, such as its cleavage, hardness, and color.
Minerals' physical characteristics, such as hardness, cleavage, and luster, are primarily dependent on their internal atomic structure and bonding. The arrangement of atoms and the strength of the bonds between them determine how a mineral reacts to physical forces, influencing its hardness and how it breaks (cleavage). Additionally, the type of bonds and the presence of specific elements can affect the mineral's luster, giving it a shiny or dull appearance. Overall, these characteristics reflect the mineral's composition and crystallography.
The shape of a mineral depends on the chemical structure that the bonds form between atoms in the mineral. A cubic mineral (such as pyrite) has a chemical structure that, as bonds are made, a cubic shape is formed.
The chemical properties of a mineral are determined by its chemical composition, specifically the types of elements it contains and how they are bonded together. The physical properties of a mineral are determined by its internal atomic structure, including how atoms are arranged, how they bond, and how they interact with light and other forces.
The internal arrangement of atoms.
The internal arrangement of atoms in a mineral, known as its crystal structure, determines how the atoms bond and interact, which directly influences the mineral's physical properties such as hardness, cleavage, and color. For instance, the strength and type of bonding (ionic, covalent, or metallic) affect how tightly the atoms are held together, impacting the mineral's durability. Additionally, the symmetry and geometry of the atomic arrangement influence optical properties and how minerals interact with light. Overall, the internal atomic structure is fundamental in defining the characteristics and behavior of the mineral.
luster is how a rock or mineral feflects light on it's physical appearance
Amber is not a mineral, because it has an organic origin and amorphous structure (no orderly internal arrangement of atoms).