Bones contain hydroxyapatite, an inorganic salt.
Minor organic salts make up less than 1% of the composition of seawater.
No, it is not possible.
Shells are organic sediments.
No, fat is not stored in spongy bone. The majority of fat in the body is stored in adipose tissue, which is a type of connective tissue located beneath the skin and around internal organs. Spongy bone is a type of bone tissue that contains bone marrow, not fat.
Diazonium salts are a class of organic compounds containing the diazonium functional group (R−N_2^+X^−). They are versatile intermediates in organic synthesis and are commonly used in the preparation of aromatic azo compounds, which have applications in the dye industry. Diazonium salts are highly reactive and can undergo various reactions such as diazo coupling and Sandmeyer reactions.
Bone salts (calcium, mainly) lend hardness; the protein-rich organic matrix permits some flexibility
Bones contain hydroxyapatite.
Bone is mixture of organic and inorganic componants. You have collagen fibres as organic and calcium salts as inorganic elements.
Bone salts, such as calcium and phosphorus, provide hardness to bones by forming a mineralized matrix. The organic matrix, composed mainly of collagen fibers, gives bones flexibility by providing a framework for mineral deposition. Together, bone salts and the organic matrix work synergistically to make bones both strong and flexible.
Matrix
Calcium (it's in every milk advert ever).
Yes, bone does release salts, primarily in the form of minerals like calcium and phosphate. These minerals are essential for various bodily functions, including maintaining bone density and supporting metabolic processes. When the body requires these minerals, bone tissue can undergo a process called resorption, where osteoclasts break down bone and release the stored salts into the bloodstream.
Bone is composed of organic components such as collagen fibers and proteoglycans, which provide flexibility and strength. Inorganic components like calcium, phosphorus, and magnesium salts provide rigidity and resistance to compression. Bone cells called osteoblasts and osteoclasts are responsible for bone formation and remodeling.
Salts may be organic or inorganic.
Minor organic salts make up less than 1% of the composition of seawater.
An organic molecule is a molecule which contains the element carbon. An inorganic molecule is the opposite. Almost all of the molecules that are inside the human body would be classified as organic molecules.
The organic portion of bone, particularly collagen, provides the flexibility and tensile strength, while the inorganic portion, mainly hydroxyapatite crystals, contributes to the hardness and stiffness of bone structure. Together, they work synergistically to maintain the integrity and strength of bones.