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The main components of bones are collagen, a type of protein that provides flexibility and strength, and mineral salts, such as calcium and phosphorus, which give bones their hardness and rigidity. Bone marrow, a spongy tissue found inside bones, is also a key component responsible for producing blood cells and storing fat.
The flexibility of bones is influenced by the organic components of the bone matrix, specifically collagen fibers. Collagen provides strength and flexibility to bones, allowing them to bend slightly without breaking. The mineral component of bones, mainly calcium phosphate, provides rigidity and hardness.
Bones are primarily composed of collagen, a protein that provides strength and flexibility, and minerals such as calcium and phosphorus, which contribute to the bone's hardness and resistance to compression. Together, these components give bones their structure and support the body's skeletal system.
Yes, you can use a hardness testing machine or a penetrometer to measure the hardness of chicken bones. By testing before and after soaking in liquid, you can observe how the moisture affects the bone's hardness. The results can help understand the impact of soaking on the bone's structural integrity.
Calcium
The primary substance responsible for the strength and hardness of bones is hydroxyapatite, which is a crystalline mineral compound made of calcium and phosphate. This mineral gives bones their rigidity and ability to withstand mechanical stress.
Collagen is responsible for the flexibility of bones. The mineral composition of bones, primarily hydroxyapatite (a calcium phosphate), provides the bone with its strength and hardness.
strength and hardness. The organic substance in bone, primarily collagen, provides flexibility and resilience, while the inorganic minerals like calcium and phosphorus give bone its hardness and rigidity. Together, these components work to support and protect the body's structure.
calcium
Yes, bones have a certain amount of flexibility to them. The bones of an infant are the most "bendable" (pliable) and as we age they slowly replace the collagen that gives them their pliability for non-pliable minerals. As such, the bones of an elderly person are the least pliable, but usually still have some pliability.
bones and brain
Mineral salts from calcium and phosphorus compounds are essential for making bones hard and strong. calcium is the most essential mineral to make bones strong but not all bones are as hard as you think some bones are "Spongy" but we just dont notice it. hope this helps if you need to know this....