A Correlation of Marieb 2016 To the for Science
A Correlation of, Science, HUMAN ANATOMY AND PHYSIOLOGY From Molecules to Organisms: Structures and Processes 1. Develop and use models and appropriate SE: 3-13, 16-20 terminology to identify regions, directions, planes, and cavities in the human body to locate organs and systems. 2. Analyze characteristics of tissue types (e.g., epithelial tissue) and construct an explanation of how the chemical and structural organizations of the cells that form these tissues are specialized to conduct the function of that tissue (e.g., lining, protecting). 3. Obtain and communicate information to explain the integumentary system s structure and function, including layers and accessories of skin and types of membranes. a. Analyze the effects of pathological conditions (e.g., burns, skin cancer, bacterial and viral infections, chemical dermatitis) to determine the body s attempt to maintain homeostasis. 4. Use models to identify the structure and function of the skeletal system (e.g., classification of bones by shape, classification of joints and the appendicular and axial skeletons). a. Obtain and communicate information to demonstrate understanding of the growth and development of the skeletal system (e.g., bone growth and remodeling). b. Obtain and communicate information to demonstrate understanding of the pathology of the skeletal system (e.g., types of bone fractures and their treatment, osteoporosis, rickets, other bone diseases). SE: 115-116, 117-125, 126-136, 137-138, 139-140, 141-142, 143-146 SE: 150-151, 152-153, 154-156, 157-160, 161-162 SE: 156-157, 162-164, 164-167 SE: 173-174, 175-176, 177-182, 199-217, 218-224, 225-226, 227-229, 230-235, 236-239, 240-247, 252, 253, 254-259, 260-270, 271-274 SE: 183-189, 246-247, 274-275 SE: 189-191, 192-194, 271-275 2
A Correlation of, Science, 5. Develop and use models to illustrate the anatomy of the muscular system, including muscle locations and groups, actions, origins and insertions. a. Plan and conduct investigations to explain the physiology of the muscular system (e.g., muscle contraction/ relaxation, muscle fatigue, muscle tone), including pathological conditions (e.g., muscular dystrophy). 6. Obtain, evaluate, and communicate information regarding how the central nervous system and peripheral nervous system interrelate, including how these systems affect all other body systems to maintain homeostasis. a. Use scientific evidence to evaluate the effects of pathology on the nervous system (e.g., Parkinson s disease, Alzheimer s disease, cerebral palsy, head trauma) and argue possible prevention and treatment options. SE: 328-329, 323, 324, 327, 330-383 SE: 287-295, 296-300, 301-303, 304-306, 307, 308-317 SE: 389-390, 391, 392-397, 398-400, 401, 402, 486-488, 489-491, 492-493, 494, 502, 503-512, 513-514, 515, 516-521 SE: 448, 464-466, 478 b. Design a medication to treat a disorder associated with neurotransmission, including mode of entry in body, form of medication, and desired effects. Supporting content SE: 412-413, 418-422 7. Use models to determine the relationship between the structures in and functions of the cardiovascular system (e.g., components of blood, blood circulation through the heart and systems of the body, ABO blood groups, anatomy of the heart, types of blood vessels). SE: 636-638, 656-658, 664-670, 671-672, 673-675, 676-679, 680, 699-700, 701, 702-703, 704-706, 707-708, 709-710, 711-717, 718-721, 722-727, 728-751, 752 3
A Correlation of, Science, a. Engage in argument from evidence regarding possible prevention and treatment options related pathology of the cardiovascular system (e.g., myocardial infarction, mitral valve prolapse, varicose veins, arteriosclerosis, anemia, high blood pressure). b. Design and carry out an experiment to test various conditions that affect the heart (e.g. heart rate, blood pressure, or ECG output.) SE: 543, 642-644, 676, 679-694, 697, 706-707, 716-717, 751, 945 SE: 683-685, 690-691, 696 (Critical Thinking and Application Question #1), 697, 708-710, 716-717, 756 8. Communicate scientific information to explain the relationship between the structures and functions, both mechanical (e.g., chewing, churning in stomach) and chemical (e.g., enzymes, hydrochloric acid [HCl] in stomach), of the digestive system, including the accessory organs (e.g., salivary glands, pancreas). a. Obtain and communicate information to demonstrate an understanding of the disorders of the digestive system (e.g. ulcers, Crohn s disease, diverticulitis). 9. Develop and use a model to explain how the organs of the respiratory system function. a. Engage in argument from evidence describing how environmental (e.g., cigarette smoke, polluted air) and genetic factors may affect the respiratory system, possibly leading to pathological conditions (e.g., cystic fibrosis). SE: 857, 858, 859-861, 862-863, 864-868, 869-871, 872-880, 881-887, 888-893, 894-899, 900-908 SE: 860, 866, 867, 868, 871, 875, 881, 886, 891, 894, 897, 898, 902, 903, 906-907, 912 SE: 808, 809-812, 813-820, 821-822, 823-827, 828-829, 830-833, 834-839, 840-845 SE: 627, 717, 842-845, 846-849 4
A Correlation of, Science, 10. Obtain, evaluate, and communicate information to differentiate between the male and female reproductive systems, including pathological conditions that affect each. a. Use models to demonstrate what occurs in fetal development at each stage of pregnancy. 11. Use models to differentiate the structures of the urinary system and to describe their functions. a. Analyze and interpret data related to the urinary system to show the relationship between homeostatic imbalances and disease (e.g., kidney stones, effects of ph imbalances). 12. Obtain and communicate information to explain the lymphatic organs and their structure and function. a. Develop and use a model to explain the body s lines of defense and immunity. b. Obtain and communicate information to demonstrate an understanding of the disorders of the immune system (e.g., AIDS, SCID). 13. Obtain, evaluate, and communicate information to support the claim that the endocrine glands secret hormones that help the body maintain homeostasis through feedback loops. a. Analyze the effects of pathological conditions (e.g., pituitary dwarfism, Addison s disease, diabetes mellitus) caused by hormone imbalance of the hormones of endocrine glands. SE: 1027, 1028-1029, 1030-1031, 1032, 1033-1034, 1035, 1036-1041, 1042-1043, 1044-1045, 1046-1050, 1051, 1052-1053, 1054, 1055-1057, 1058-1062, 1063-1069 SE: 1075-1076, 1077-1080, 1081-1084, 1085-1093, 1094-1095, 1096-1097, 1098 SE: 962, 963-966, 967-970, 971, 972-975, 976-980, 981-987, 988-993 SE: 963, 964, 976, 987, 988, 990, 991, 993 SE: 758-767, 782 SE: 772-779, 780 SE: 800-803, 805-806 SE: 603-610, 611-615, 616-621, 622-625, 630 SE: 606-607 (Table 16.2), 608, 609, 611, 614, 616, 619, 620, 622, 624, 627-629, 633-634 5