WebQuestion: Bone is weakest in resisting: Tensile stress Shear stress Compressive stress Bone is equally strong in resisting all types of stress. Ligaments are less stiff and … WebJan 1, 2024 · Bones are stronger in resisting compression than in resisting tension and shear forces because when the forces in compression are going with the grain it is building its strength. With compression it allows the force to be absorbed. Therefore, as men get older, their bones grow stronger, whereas the bones weaken.
How does the structure of a long bone resist stress?
WebWhy? b) What type of stress is bone strongest in resisting? Explain why? c) What type of stress is bone weakest in resisting? Explain why? d) What type of stress is ligament strongest in resisting? Explain why? Answer the following questions: a) Which can withstand greater tensile stress -- bone or ligament? Why? WebResistance to mechanical loading in bone depends on the direction of loading. This makes bone anisotropic. The opposite of anisotropic is isotropic, meaning that the resistance to mechanical loading is the same no matter how the bone is loaded. Bone is composed of collagen and calcium salts. The collagen enhances bone flexibility and allows ... 鮮 くさかんむり
Osteoporosis: Symptoms, Causes, Tests & Treatment - Cleveland Clinic
WebQuestion. Bone is weakest in resisting: Tensile stress Shear stress Compressive stress Bone is equally strong in resisting all types of stress. Ligaments are less stiff and slightly weaker than tendons because: Ligaments have more elastin and less-aligned collagen fibers Ligaments have less elastin and more-aligned collagen fibers Ligaments ... WebSep 9, 2024 · The Femur. “In human anatomy, the femur (thigh bone) is the longest and largest bone. Along with the temporal bone of the skull, it is one of the two strongest … WebScience. Biology. Biology questions and answers. 1. Bones are strongest in resisting compressive stress, why? Explain. 2. Bones are weakest in resisting shear stress, why? 鮮 とは