Once you are familiar with the orientation of various structures and their integration with one another, you can begin to apply functional significance to these relationships. Neural and muscular anatomy generally compose the majority of Anatomy course content.Īnatomy is essentially the foundation from which you can build an understanding of Physiology. Neuroanatomy is often a point of focus, requiring you to learn both the topical anatomy of the brain and the sub-cortical structures. You become familiar with the actions, origins, and insertions of muscles, as well as the various protrusions and contours of the bones. In Anatomy, you also need to learn the names and positions of numerous structures, which requires a great deal of memorization. It becomes important to understand the mechanical properties of various tissues during the physiological analysis, including force-tension analyses, bone structures, bioelectrical conduction, and other characteristics of muscle, bone, and nerves. You learn the mechanics of these structures, implementing some biophysics material into your understanding of biological structures. Instruction in Anatomy often begins by discussing bodily structures including muscles, bones, organs, connective tissues, nerves, and vasculature. You gain in-depth knowledge of structures in the Anatomy sections of the course, and you are introduced to the specific implications of these structures in the Physiology section. Anatomy and Physiology classes apply this rule in much greater detail. In Elementary Biology, you learn that structure, even at the level of molecular biology, is directly tied to function. Anatomy and Physiology may be presented as two different subjects, but they are so closely linked that they are impossible to separate.
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