well its your minerals
allow flexibility
Many bones have many joints, hence, great flexibility.
If the spine was one continuous bone, we would be very restricted in our upper body movements. The jointed vertebrae allow flexibility.
The twist bones in the human body, such as the vertebrae in the spine, allow for flexibility and range of motion by enabling the body to bend, twist, and move in various directions. These bones are designed to rotate and pivot, providing support and stability while allowing for a wide range of movements.
No, there are not 6 bones in the human spine. There are actually 33 vertebrae in 5 regions. These regions include: cervical (7 bones), thoracic (12 bones), lumbar (5 bones), sacral (5 fused bones), and coccygeal (4 fused bones).
Seven. The first vertebra being the Atlas and the second being the Axis.
During a sit-up, the primary bones used are the vertebral column (spine) and the pelvic bones (hip bones). The spine provides support and flexibility, while the pelvic bones anchor the lower body and help stabilize the movement.
One long bone would not allow for the flexibility of motion which multiple bones, cushioned by intervertebral discs, allow for.
The intervertebral discs are the pads in the vertebrae that allow for limited movement between the bones. They act as cushions and shock absorbers, helping to support the spine while allowing for some flexibility.
A crocodile's spine is made up of a variable number of bones, typically between 50 to 70 vertebrae. These vertebrae are connected by ligaments and cartilage, providing flexibility and support for the crocodile's body.
A gap between bones is called a joint. Joints allow for movement and flexibility in the skeletal system.
Its for the flexibility of the spine. Without it, we wouldn't be able to move as we do. The same rule applies to the bones of the hands and feet.