Human Physiology: From Cells to SystemsWadsworth Publishing Company, 1997 - 291 Seiten Get the edge in physiology class with HUMAN PHYSIOLOGY: FROM CELLS TO SYSTEMS. Author Lauralee Sherwood has streamlined physiological study without dumbing it down by organizing the material around one central human process: homeostasis. In addition to the easy-to-understand text, Sherwood ties physiological study to real world scenarios in fields like pathophysiology and clinical physiology. Plus, it includes PhysioEdge, the most powerful CD-ROM you can get. PhysioEdge2 is packed with tutorials and fast access to answers. And Personal Tutor with SMARTHINKING (access to a live online human physiology tutor) and InfoTrac (an online university library that will save you a trek across campus), HUMAN PHYSIOLOGY: FROM CELLS TO SYSTEMS is the text you need to succeed in physiology class and get ready for health-related careers. |
Inhalt
Chapter | 1 |
Chapter 3 | 21 |
Chapter 4 | 35 |
Urheberrecht | |
11 weitere Abschnitte werden nicht angezeigt.
Andere Ausgaben - Alle anzeigen
Human Physiology: From Cells to Systems Lauralee Sherwood,Christopher Ward Keine Leseprobe verfügbar - 2015 |
Häufige Begriffe und Wortgruppen
acid action potential activity adrenal afferent alveolar antibodies antigen arterial arteriolar arterioles atrial axon binding blood flow blood pressure body calcium capillaries carbon dioxide caused cellular chemical cholesterol concentration contractile contraction cortex cortisol decreased diffusion digestive disease efferent endocrine energy enzymes epinephrine estrogen excretion extracellular factor False filaments function gastric glands glucose gradient growth hormone heart helper T cells hemoglobin homeostasis hydrogen hypothalamus immune increased inhibits input insulin interstitial fluid intestine ions kidneys known layer lungs lymphocytes medulla metabolic molecules motor neurons muscle cells muscle fibers myosin nerve nervous system neurons neurotransmitters nociceptors normal occurs organs output oxygen parasympathetic partial pressure pathway peptide pituitary plasma membrane potassium produce proteins reabsorption receptors reflex release renal respiratory response role secretion skeletal muscle smooth muscle sodium spinal stimulation substances surface sympathetic synaptic thyroid hormone tion tissue transport True True/False tubular tubule types urine vasopressin venous ventricular vessels volume