The salt used to construct bone is ...
Hydroxyapatite (calcium phosphate and calcium carbonate)
Other than the salt, which is 50% of the bone, it is also 25% water, and 25% collagen fibers, which are what gives bone its tensile strength.
Phosphate
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.
Matrix
Bones contain hydroxyapatite, an inorganic salt.
The salts that form tiny crystals in the intercellular matrix of bone tissue consist largely of calcium and phosphate ions, specifically in the form of hydroxyapatite. These salts provide the bone with its strength and hardness, contributing to its overall structure and function.
Osteocytes are mature osteoblasts which maintain the bone structure.
Calcium salts in bone provide strength and rigidity to the bone structure. They help to mineralize the bone matrix, making it hard and capable of withstanding mechanical stress. Calcium salts also play a role in bone remodeling and storage of calcium for regulatory purposes in the body.
The three primary inorganic components of bone are hydroxyapatite, calcium carbonate, and various mineral salts. Hydroxyapatite, a crystalline structure primarily composed of calcium phosphate, provides strength and rigidity. Calcium carbonate contributes to the bone's overall hardness, while mineral salts, including magnesium and sodium, play roles in bone structure and function. Together, these components give bone its durability and support.
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.
Living bone tissue is made up of three main components: collagen, mineral salts (primarily calcium and phosphate), and water. The collagen provides flexibility and support, the mineral salts give strength and hardness, and water helps maintain the bone's structure and facilitate metabolic processes within the bone cells.
if the mineral salts of bone is dissolved in an acid like HCl then the bone becomes soft and spongy like rubber.however if the same is done with base it will only become bright because the bone becomes clean but salts fail to react an dissolve.
Hydroxyapatites.