Pelvic Girdle: Deep synovial ball and socket joint surrounded by bone structure. This gives a trade off for security, rigidity with less flexibility due to its weight bearing role of full body weight. Doesn't need muscles to hold it in place.
Pectoral Girdle: Shallow synovial ball and socket joint which needs muscles to hold the head of the humerous in place. The four rotator cuff muscles perform this including Teres minor, infraspinatous, supraspinatous and subscapularis. This trade off for a shallow ball and socket joint held in by muscles allows a highest range of motion of any joint in body but there is less security and ability to bear weight. Is quite common to dislocate shoulder joint but very uncommon to dislocate your hip joint.
Flexibility: pectoral girdle is more flexible-less ligaments, ball and socket joint is shallower Security: pelvic girdle is more secure, deeper socket. there are more dislocated shoulders than dislocated hips ability to bear weight: pelvic girdle can bear more weight-the pelvic girdle has bones that are fused (os coxa) and a joint with the sacrum. the pectoral girdle has a little bone called the clavicle connecting it to the body wall.
There is a difference between elasticity and flexibility. Elasticity is the ability to stretch and flexibility is the ability to bend.
According to Wikipedia there are 11 classes of flexibility:Machine flexibility - The different operation types that a machine can perform.Material handling flexibility - The ability to move the products within a manufacturing facility.Operation flexibility - The ability to produce a product in different ways.Process flexibility - The set of products that the system can produce.Product flexibility - The ability to add new products in the system.Routing flexibility - The different routes (through machines and workshops) that can be used to produce a product in the system.Volume flexibility - The ease to profitably increase or decrease the output of an existing system.Expansion flexibility - The ability to build out the capacity of a system.Program flexibility - The ability to run a system automatically.Production flexibility - The number of products a system currently can produce.Market flexibility - The ability of the system to adapt to market demands.
According to Wikipedia there are 11 classes of flexibility:Machine flexibility - The different operation types that a machine can perform.Material handling flexibility - The ability to move the products within a manufacturing facility.Operation flexibility - The ability to produce a product in different ways.Process flexibility - The set of products that the system can produce.Product flexibility - The ability to add new products in the system.Routing flexibility - The different routes (through machines and workshops) that can be used to produce a product in the system.Volume flexibility - The ease to profitably increase or decrease the output of an existing system.Expansion flexibility - The ability to build out the capacity of a system.Program flexibility - The ability to run a system automatically.Production flexibility - The number of products a system currently can produce.Market flexibility - The ability of the system to adapt to market demands.
Elasticity refers to the ability of a material to return to its original shape after being stretched or compressed. Flexibility, on the other hand, refers to the ability to bend easily without breaking. In short, elasticity is about how much a material can stretch and return, while flexibility is about how easily a material can bend.
Flexibility
Like any other noun. Flexibility is the ability to bend.
Flexibility is the ability to move smoothly without interruption. Adaptability is the ability to adjust oneself to different conditions than what one is used to.
Ability to bend/compromise.
you need flexibility endurance and ability
Flexibility is defined as the ability to move body joints through a full range of motion.
The ability of a firm to quickly increase or decrease its production rate and still be profitable.