Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities. This builds on the Part II course. There is an emphasis on developing and applying the key professional, clinical and communication skills for medicine in the clinical context. The course culminates in a hospital-based clinical medicine attachment.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities. This builds on the Part II course. There is an emphasis on developing and applying the key professional, clinical and communication skills for medicine in the clinical context. The course culminates in a hospital-based clinical medicine attachment. A coordinated multidisciplinary approach to the central and peripheral nervous systems and the systems of the head and neck including the special senses. It provides a scientific understanding of normal and abnormal structure and function of the nervous system and associated systems. Clinical problem solving and clinical examination skills are important aspects of this course.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities. This builds on the Part II course. There is an emphasis on developing and applying the key professional, clinical and communication skills for medicine in the clinical context. The course culminates in a hospital-based clinical medicine attachment. A coordinated multidisciplinary approach to the central and peripheral nervous systems and the systems of the head and neck including the special senses. It provides a scientific understanding of normal and abnormal structure and function of the nervous system and associated systems. Clinical problem solving and clinical examination skills are important aspects of this course. During Part IV, students spend thirty weeks in seven clinical attachments, in emergency medicine, anaesthesia, locomotor, psychiatry, general practice, medicine and surgery. These attachments are complemented by six weeks of topic teaching on campus. There is also a compulsory MÄori and Pacific Health module.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities. This builds on the Part II course. There is an emphasis on developing and applying the key professional, clinical and communication skills for medicine in the clinical context. The course culminates in a hospital-based clinical medicine attachment. A coordinated multidisciplinary approach to the central and peripheral nervous systems and the systems of the head and neck including the special senses. It provides a scientific understanding of normal and abnormal structure and function of the nervous system and associated systems. Clinical problem solving and clinical examination skills are important aspects of this course. During Part IV, students spend thirty weeks in seven clinical attachments, in emergency medicine, anaesthesia, locomotor, psychiatry, general practice, medicine and surgery. These attachments are complemented by six weeks of topic teaching on campus. There is also a compulsory MÄori and Pacific Health module. Students spend thirty weeks in clinical attachments. These are obstetrics and gynaecology, specialty medicine, geriatric medicine, paediatrics, general practice, and specialty surgery. There is a four week selective experience and projects in professional development to be completed. There are five weeks of topic teaching on campus, including a Population Health week. Students may undertake the majority of the study-year in a rural/regional setting.
Score: 5.4905925 Details | Listing | Web page
Integrated study of the human musculoskeletal system with emphasis on the structural and functional aspects that underpin common clinical problems such as: fractures; soft tissue, nerve and joint injuries; hernias; osteo- and rheumatoid-arthritis; and osteoporosis. Practical work links anatomy, radiology, physiology and pathology and includes appropriate clinical skills. The structure and function of the gastrointestinal system in health and disease, with relevant clinical examples. Multidisciplinary study of digestion and absorption of food components, their metabolic roles and actions, and the nutritional significance of dietary components. Includes fundamental anatomical, biochemical and pathological principles of gastrointestinal structure, digestion and nutrition. Multidisciplinary approach to the normal and abnormal structure and function of the renal and genital systems, including an overview of important diseases, their therapy, and population and behavioural perspectives. Clinically important examples and relevant clinical examination skills will be taught. Introduction to the description and pathogenesis of general disease processes as a basis for the systematic study of human disease. The application of genetics and genomics in medicine. General principles and mechanisms of drug action and therapeutic intervention in the management of human illness. Clinical examples and leading research will be used to explore these areas. Multidisciplinary approach to the scientific basis of normal and abnormal structure and function of the human heart, airways, lungs and vascular system. This is focused around clinically-important cardiovascular and respiratory conditions and includes relevant clinical examination skills linked to practical exploration of relevant anatomy, radiology, physiology and pathology. Population, behavioural and therapeutic aspects will also be considered. Multidisciplinary approach to the development of personal, professional, clinical and communication skills needed to be an effective medical practitioner. Topics include: ethics, communication skills, personal development, health promotion and consideration of cultural issues, with an emphasis on clinically-relevant interactions and scenarios. An integrated study of the biology of reproduction, development and endocrinology. Emphasis is placed on understanding the endocrine regulatory mechanisms of the hypothalamic/pituitary/gonadal axis and the control of oogenesis and spermatogenesis, on the endocrinology and physiology of the menstrual cycle and pregnancy, and on the control of growth, development and aging from conception through puberty, menopause and beyond. Throughout there is a strong emphasis on clinical relevance and clinical sessions are an important component of the course. An integrated treatment of the regulation of human body function and its modification by drugs. Topics include: the regulation of gastrointestinal function; electrolytes and fluid volume; cardiovascular function; respiration; energy balance and body weight; body temperature; and the physiology of exercise. Clinical problem sessions are an important component and common illnesses are analysed to demonstrate that knowledge of normal function provides a basis for understanding and managing these disorders. An integrated and multidisciplinary approach to the normal and abnormal function of the haematopoietic and immune systems, and how bacteria and viruses produce infections. Teaching and learning will be based around clinical examples and will include instruction in relevant examination skills. A variety of options from the study of medical humanities. This builds on the Part II course. There is an emphasis on developing and applying the key professional, clinical and communication skills for medicine in the clinical context. The course culminates in a hospital-based clinical medicine attachment. A coordinated multidisciplinary approach to the central and peripheral nervous systems and the systems of the head and neck including the special senses. It provides a scientific understanding of normal and abnormal structure and function of the nervous system and associated systems. Clinical problem solving and clinical examination skills are important aspects of this course. During Part IV, students spend thirty weeks in seven clinical attachments, in emergency medicine, anaesthesia, locomotor, psychiatry, general practice, medicine and surgery. These attachments are complemented by six weeks of topic teaching on campus. There is also a compulsory MÄori and Pacific Health module. Students spend thirty weeks in clinical attachments. These are obstetrics and gynaecology, specialty medicine, geriatric medicine, paediatrics, general practice, and specialty surgery. There is a four week selective experience and projects in professional development to be completed. There are five weeks of topic teaching on campus, including a Population Health week. Students may undertake the majority of the study-year in a rural/regional setting. The 42 week trainee intern year includes an âelective' period when students may undertake optional training in an area of medicine of their choice. The remaining weeks are spent practising under supervision, in hospitals and community facilities. Students undertake patient care in the disciplines of medicine, surgery, psychiatry, general practice, paediatrics, and obstetrics and gynaecology. Students must also complete an advanced cardiac life support course, a module in radiology, and a surgical skills course.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers. An introduction to mechatronics engineering and its main elements. Topics include interfacing and signal processing, sensors, actuators, control technologies, systems modelling, simulation and analysis.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers. An introduction to mechatronics engineering and its main elements. Topics include interfacing and signal processing, sensors, actuators, control technologies, systems modelling, simulation and analysis. An introduction into the design of real time software addressing issues such as software design and specification, software life cycle methods, operating systems, programming in assembly and high-level languages, and simulation and analysis tools.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers. An introduction to mechatronics engineering and its main elements. Topics include interfacing and signal processing, sensors, actuators, control technologies, systems modelling, simulation and analysis. An introduction into the design of real time software addressing issues such as software design and specification, software life cycle methods, operating systems, programming in assembly and high-level languages, and simulation and analysis tools. An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, sensitivity, frequency response characteristics, and controller design (eg, pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers. An introduction to mechatronics engineering and its main elements. Topics include interfacing and signal processing, sensors, actuators, control technologies, systems modelling, simulation and analysis. An introduction into the design of real time software addressing issues such as software design and specification, software life cycle methods, operating systems, programming in assembly and high-level languages, and simulation and analysis tools. An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, sensitivity, frequency response characteristics, and controller design (eg, pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems. Kinetics: force-acceleration, work-energy, impulse momentum. Forced and transient vibration of single degree of freedom systems and applications. Multi-component systems. Free and forced vibration of two degree of freedom systems. Rigid body kinetics in 3D: the inertia tensor, Euler's equations, gyroscopic motion. Flow induced vibrations: buffeting, vortex shedding, lock-in, flutter, galloping etc. Structural response and mitigating measures.
Score: 5.4905925 Details | Listing | Web page
The fundamentals of fluid mechanics, thermodynamics and heat transfer with practical applications to engineering devices and systems. Kinematics of particles, rectilinear and curvilinear motion, kinematics of rigid bodies in the plane. Kinetics of particles, systems of particles and rigid bodies. Impulse and momentum, mechanism motion in the plane. Vibration of a particle. An introductory study of machines and mechanisms in terms of their function, design, manufacture and life. Aspects covered will include: gear trains, fluid power systems, electric motors, bearings, lubrication and wear, linkages, engines and manufacturing machines. The course introduces basics of modelling, simulation and animation of a dynamics of systems, structures, objects and devices. Simulations and animations lead to deeper understanding of dynamic phenomena in various fields of engineering as well as in economy, bio-medicine and sociology. The problems included throughout the course reinforce the mastery of both the theory and the practice of system dynamics. Sound skills and principles of mechanical engineering design. Basics of engineering drawing. Introduction to Computer-aided design (CAD): geometrical and solid modeling methods. Design process as a problem-solving activity and the design of simple structural and machine elements, and systems. Design as a teamwork activity. Statically determinate stress systems; stress - strain relations. Bending of beams: stress - moment and moment - curvature relations; beam deflections; buckling of struts. Shear in joints, couplings, beams and circular shafts. General analysis of plane stress. Introduction to failure criteria by yield and fracture. Safety factors. Fundamentals of software design and high-level programming making use of case studies and programming projects. Includes: requirements analysis, specification methods, software architecture, software development environments, software quality, modularity, maintenance, reusability and reliability; models of software development. Second Law of Thermodynamics, entropy. Cycles and applications. Heat transfer, heat exchangers. An introduction to mechatronics engineering and its main elements. Topics include interfacing and signal processing, sensors, actuators, control technologies, systems modelling, simulation and analysis. An introduction into the design of real time software addressing issues such as software design and specification, software life cycle methods, operating systems, programming in assembly and high-level languages, and simulation and analysis tools. An introduction to classical control of mechanical and mechatronic systems. Topics include: transfer functions, block diagrams, time response characteristics, stability, sensitivity, frequency response characteristics, and controller design (eg, pole placement, lead-lag compensation, PID). Applications in MATLAB/Simulink and with physical systems. Kinetics: force-acceleration, work-energy, impulse momentum. Forced and transient vibration of single degree of freedom systems and applications. Multi-component systems. Free and forced vibration of two degree of freedom systems. Rigid body kinetics in 3D: the inertia tensor, Euler's equations, gyroscopic motion. Flow induced vibrations: buffeting, vortex shedding, lock-in, flutter, galloping etc. Structural response and mitigating measures. Good practice and standard methods in mechanical engineering design. Conceptual and detailed design in projects involving machine elements, engineering sciences and engineering mechanics. Some of the advanced computer-aided tools (eg, CAD, CAM, CAE) will be introduced and utilised in some projects.
Score: 5.4905925 Details | Listing | Web page
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