list of elements that comprise of the human skeleton

Skeleton bones

Below are the components that comprise the human skeleton, the human skeleton is the complete structure that holds the body’s functional system. 

  • Nose cavity
  • Mandible
  • Lower jaw
  • Cervical
  • Girdle
  • Skull
  • Eye socket
  • Maxilla( (upper Jaw)
  • Pectoral
  • Cervical
  • Shoulder
  • Collars-bone)
  • Sternum
  • Clavicle(shoulder blade)
  • Humerus
  • Thoracic
  • SocrVertebraebroe
  • Lumbar
  • Ulno
  • Vertebrae
  • Radius
  • Pelvic
  • Carpals or hip (wrist)
  • Girdle
  • Ribs
  • Metacarpals
  • Phalanges (hand bones)
  • Finger Bones)
  • Femur
  • Patella )kneecap)
  • Tibid
  • Tarsals (ankle)
  • Fibula
  • Phalanges (toe bones)
  • Metatarsila (foot bones)

Human skeleton framework mammals including human beings endoskeletons as against exoskeleton found in insects. It is a framework of the body that supports and protects the soft tissue and organs.

What is the exoskeleton in humans?

The exoskeleton is made of bones and connective tissues. The bone is in top shape packed in a dense cushion of muscles, ligaments, arteries, and nerves. The tissues around these connective tissues are what support the entire system. Humans have two sets of nerves running through their bodies. One set runs from the brain to the limbs and the other from the legs to the head; these are known as sensory nerves. Nerve cells matured in the

The exoskeleton is a simplified upper body model of a human being. The upper body is a structure that facilitates movement; it contains bones, muscles, tendons, ligaments, and bones special structures that support muscles and connect bones. The lower body is made up of bones, muscles, tendons, ligaments, and joints. It supports the knee and hip joints, as well as providing stability for the spine and pelvis.

The exoskeleton is made up of different bones, muscles, and connective tissues that collectively form the body’s natural structure. The human skeleton is strengthened by these tissues and bones – our body’s biggest and most powerful muscles are located within our core. The bones directly below and behind our center of gravity help stabilize our posture and keep our center of balance. Those areas also contain muscles that extend downward like arms and pull us toward the ground when we stand or sit without leaning on something.

The exoskeleton is a suite of mechanical systems that enables the full performance of a human body at any stage of physical development. Since the late 19th century, it has been a staple of modern medicine and scientific research. It represents a new age for human mobility and represents a dramatic improvement over the array of impairments associated with old age. The exoskeleton is not a stand-in for evolution; it does not demand that we adapt our bodies to movement as our ancestors once did. It is an aid to progression in living–an aid that enables us to make gradual, controlled improvements in our faculties as we age.

The exoskeleton is an essential part of our body. It allows us to hold objects like a cup or a drink, like a soldier holding up his equipment. How did we evolve this way? Our arms and legs are filled with tendons and bones that help support our body weight. At the same time, we have muscles that pull us towards certain positions such as standing on tiptoe or sitting on a chair. We use muscles to pull our bodies in certain directions.

The exoskeleton is human-like in appearance and is made of powered tendons, artificial muscles, and bio-inspired structures made from human cells. The goal is to enable people with paralysis to walk again with minimal physical intervention. Researchers have developed a biosensor-based system that can detect the onset of paralysis in patients and gently guide them toward independent movement by electrically stimulating specific nerve endings in their extremities. The sensor data are then transmitted via radio communications to a computerized control system. Like the human body, the exoskeleton has a lifespan. Mechanical failures such as bone breaks, electrical malfunctions, and fungus infections can prematurely age an exoskeleton

  • The endoskeleton of man is divided into two parts – the AxialS skeleton and the Appendicular Skeleton.

AXIAL SKELETON:- This consists of the skull, vertebral column, ribs, and sternum. The skull encloses the brain and gives shape to the head. It has many bones father by joints called Sutures. The skull has three main parts -the cranium; the facial skeleton which supports the nose, eyes and the cheek, and the jaws or mandible.

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