Laboratory Exercise 12 Anatomy of the Heart
... The right side of the heart pumps deoxygenated blood to the lungs, where it is oxygenated. This is the pulmonary division of the circulatory system. The left side of the heart pumps the oxygenated blood to the tissues of the body. At the level of the body tissue cells, the oxygenated blood releases ...
... The right side of the heart pumps deoxygenated blood to the lungs, where it is oxygenated. This is the pulmonary division of the circulatory system. The left side of the heart pumps the oxygenated blood to the tissues of the body. At the level of the body tissue cells, the oxygenated blood releases ...
Blood Flow - WBR Teacher Moodle
... heart through the left atrium. The mitral valve is closed to keep the blood from going into the ventricle. ...
... heart through the left atrium. The mitral valve is closed to keep the blood from going into the ventricle. ...
Anatomy of the Heart
... Receives blood from 3 major veins, the superior vena cava (blood from upper body), the inferior vena cava (blood from lower body) and the coronary sinus (blood from the heart muscle itself - coronary circulation) Thin walls - not a strong pump Auricle - provides extra volume Pectinate muscle ...
... Receives blood from 3 major veins, the superior vena cava (blood from upper body), the inferior vena cava (blood from lower body) and the coronary sinus (blood from the heart muscle itself - coronary circulation) Thin walls - not a strong pump Auricle - provides extra volume Pectinate muscle ...
Anatomy of the Heart Definitions
... The inferior vena cava is one of the two main veins bringing de-oxygenated blood from the body to the heart. Veins from the legs and lower torso feed into the inferior vena cava, which empties into the right atrium of the heart. Aorta The aorta is the largest single blood vessel in the body. It is a ...
... The inferior vena cava is one of the two main veins bringing de-oxygenated blood from the body to the heart. Veins from the legs and lower torso feed into the inferior vena cava, which empties into the right atrium of the heart. Aorta The aorta is the largest single blood vessel in the body. It is a ...
JUST VOCAB
... In animals the body plan where the left and right sides are mirror images Bilateral symmetry of each other ____________________ This part smoothes the flow of blood leaving the ventricle __________________ Conus arteriosus ...
... In animals the body plan where the left and right sides are mirror images Bilateral symmetry of each other ____________________ This part smoothes the flow of blood leaving the ventricle __________________ Conus arteriosus ...
PHYSIOLOGY Basic Level Crossword
... 9. A mature red blood cell. 10. The fluid and dissolved substances excreted by the kidney. 11. An organ that produces and secretes a chemical substance in the body. 13. An individual constituted to carry on the activities of life by means of organs separate in function but mutually dependent; a livi ...
... 9. A mature red blood cell. 10. The fluid and dissolved substances excreted by the kidney. 11. An organ that produces and secretes a chemical substance in the body. 13. An individual constituted to carry on the activities of life by means of organs separate in function but mutually dependent; a livi ...
8th Grade Health
... c. Urethra – OPENING WHERE URINE LEAVES THE BODY d. Urea – LIQUID WASTE FOUND IN BLOODSTREAM 10. Liver – LARGEST ORGAN INSIDE THE BODY, WHICH PRODUCES BILE AND FILTERS TOXINS OUT OF NUTRIENT RICH BLOOD ...
... c. Urethra – OPENING WHERE URINE LEAVES THE BODY d. Urea – LIQUID WASTE FOUND IN BLOODSTREAM 10. Liver – LARGEST ORGAN INSIDE THE BODY, WHICH PRODUCES BILE AND FILTERS TOXINS OUT OF NUTRIENT RICH BLOOD ...
Flow of Blood and Vessel Structure and Location
... ventricle and the front of the septum Right Coronary Artery (RCA) –Supplies blood to the Right Atrium, right ventricle, and bottom of the septum Coronary Veins – takes oxygen-poor or deoxygenated blood that has already been “used” by muscles of the Heart and return it to the right atrium Vena Cava – ...
... ventricle and the front of the septum Right Coronary Artery (RCA) –Supplies blood to the Right Atrium, right ventricle, and bottom of the septum Coronary Veins – takes oxygen-poor or deoxygenated blood that has already been “used” by muscles of the Heart and return it to the right atrium Vena Cava – ...
The Circulatory System:
... Oxygen rich blood and Oxygen poor blood never mix. The right side of the heart deals with O2 poor blood (Pulmonary Circulation) while the left side deals with O2 rich blood (Systemic Circulation) ...
... Oxygen rich blood and Oxygen poor blood never mix. The right side of the heart deals with O2 poor blood (Pulmonary Circulation) while the left side deals with O2 rich blood (Systemic Circulation) ...
Anatomy and Physiology II MED 165 Blood Vessels System
... List all of the components of systemic circulation? What are three layers of all arteries and veins? What tissue is found in the three layers? Which direction do arteries transport blood? Is arterial blood oxygenated, deoxygenated or it depends on the type of circulation? What are the two types of a ...
... List all of the components of systemic circulation? What are three layers of all arteries and veins? What tissue is found in the three layers? Which direction do arteries transport blood? Is arterial blood oxygenated, deoxygenated or it depends on the type of circulation? What are the two types of a ...
The Circulatory System
... walls of the hearts in the above photos. This is a thrombus (blood clot adhered to a blood vessel or the heart) and is usually found on the valves of the heart. ...
... walls of the hearts in the above photos. This is a thrombus (blood clot adhered to a blood vessel or the heart) and is usually found on the valves of the heart. ...
Final exam review File
... The color portion of the eye with an opening in the center called the pupil The sense of smell is made possible by which receptors? ...
... The color portion of the eye with an opening in the center called the pupil The sense of smell is made possible by which receptors? ...
Exam 1 Study Guide - Dr. Stuart Sumida
... regions are served by what: sympathetic nerve, segments for sympathetic nerve, sympathetic ganglion, parasympathetic nerve, abdominal artery, hepatic portal vein tributary. What are the major sensory structures and nerves associated with the major ectodermal placodes of the head region? In order fro ...
... regions are served by what: sympathetic nerve, segments for sympathetic nerve, sympathetic ganglion, parasympathetic nerve, abdominal artery, hepatic portal vein tributary. What are the major sensory structures and nerves associated with the major ectodermal placodes of the head region? In order fro ...
RESPONSE TO THREAT SURVIVAL MECHANISM The challenges
... Lungs Expand 5. Air passages in the lungs dilate, breathing becomes rapid and deeper, providing extra supplies of oxygen to bloodstream. Adrenal glands 6. Counters allergic reaction from the flying release corti- dust during a struggle, preventing asthma or sone closing of the eyes. Digestive tract ...
... Lungs Expand 5. Air passages in the lungs dilate, breathing becomes rapid and deeper, providing extra supplies of oxygen to bloodstream. Adrenal glands 6. Counters allergic reaction from the flying release corti- dust during a struggle, preventing asthma or sone closing of the eyes. Digestive tract ...
Heart Physiology /Circulatory System Review
... 5. The first audible beats are produced by the forceful opening of an artery. This is considered to the systole 6. Explain why an athlete must exercise harder or longer to achieve a maximum heart rate than a person who is not as physically fit. Like any muscle, a well-conditioned heart beats more ef ...
... 5. The first audible beats are produced by the forceful opening of an artery. This is considered to the systole 6. Explain why an athlete must exercise harder or longer to achieve a maximum heart rate than a person who is not as physically fit. Like any muscle, a well-conditioned heart beats more ef ...
Heart Anatomy Complete
... Base: broader portion Area where the large vessels exit Is at the top Visceral Pericardium or Epicardium: lies right on the heart muscle itself Parietal Pericardium: outer covering Attached to the diaphragm at the apex Serous fluid is between the two layers (visceral and parietal) to reduce friction ...
... Base: broader portion Area where the large vessels exit Is at the top Visceral Pericardium or Epicardium: lies right on the heart muscle itself Parietal Pericardium: outer covering Attached to the diaphragm at the apex Serous fluid is between the two layers (visceral and parietal) to reduce friction ...
Task 2 – Cardiovascular
... When a heart contracts and pushes blood into blood vessels, there is a specific path that the blood follows through the body. The blood moves first through pulmonary circulation and then carries on through systemic circulation. Pulmonary and systemic are the two circuits in the two-circuit system of ...
... When a heart contracts and pushes blood into blood vessels, there is a specific path that the blood follows through the body. The blood moves first through pulmonary circulation and then carries on through systemic circulation. Pulmonary and systemic are the two circuits in the two-circuit system of ...
Slide 1
... -Narrowing and hardening of the arteries due to build up of plaque (cholesterol) -Causes high blood pressure -stroke or heart attack can result if arteries become completely blocked ...
... -Narrowing and hardening of the arteries due to build up of plaque (cholesterol) -Causes high blood pressure -stroke or heart attack can result if arteries become completely blocked ...
Key Questions for Understanding the Anatomy of the Heart
... the ventricles? The ventricles are discharging chambers which pump blood out of the heart to either the lungs or the body. ...
... the ventricles? The ventricles are discharging chambers which pump blood out of the heart to either the lungs or the body. ...
Name - I Teach Bio
... 1. Name the three parts of the circulatory system. 2. What kind of blood cell carries oxygen? 3. Name the three types of blood cells: 4. Describe the function of each type of blood cell. 5. What is the main function of the circulatory system? 6. Name the three types of blood vessels and state their ...
... 1. Name the three parts of the circulatory system. 2. What kind of blood cell carries oxygen? 3. Name the three types of blood cells: 4. Describe the function of each type of blood cell. 5. What is the main function of the circulatory system? 6. Name the three types of blood vessels and state their ...
Learning Objectives Biology 253/Human Anatomy Body cavities are
... what is the nerve supply to the respiratory diaphragm? -from what spinal level does it arise? Circulatory System what are the tissue layers that characterize blood vessels? relate the distribution of different muscle types to function in the circulatory system what are the differences between arteri ...
... what is the nerve supply to the respiratory diaphragm? -from what spinal level does it arise? Circulatory System what are the tissue layers that characterize blood vessels? relate the distribution of different muscle types to function in the circulatory system what are the differences between arteri ...
TAKE HOME EXAM IV
... 4. The foramen ovale is most closely associated with the ____________________ circulation pattern. 5. The term ____________________ refers to a contraction phase in the heart. 6. Pulmonary veins carry ___________________ blood to the left atrium of the heart. 7. _________________ are blood vessels t ...
... 4. The foramen ovale is most closely associated with the ____________________ circulation pattern. 5. The term ____________________ refers to a contraction phase in the heart. 6. Pulmonary veins carry ___________________ blood to the left atrium of the heart. 7. _________________ are blood vessels t ...
CVS-1
... The inferior,thick-walld ventricles are discharging chambers (actual pump of the heart). ...
... The inferior,thick-walld ventricles are discharging chambers (actual pump of the heart). ...
Circulatory system
The circulatory system, also called the cardiovascular system, is an organ system that permits blood to circulate and transport nutrients (such as amino acids and electrolytes), oxygen, carbon dioxide, hormones, and blood cells to and from the cells in the body to provide nourishment and help in fighting diseases, stabilize temperature and pH, and maintain homeostasis. The study of the blood flow is called hemodynamics. The study of the properties of the blood flow is called hemorheology.The circulatory system is often seen to comprise both the cardiovascular system, which distributes blood, and the lymphatic system, which circulates lymph. These are two separate systems. The passage of lymph for example takes a lot longer than that of blood. Blood is a fluid consisting of plasma, red blood cells, white blood cells, and platelets that is circulated by the heart through the vertebrate vascular system, carrying oxygen and nutrients to and waste materials away from all body tissues. Lymph is essentially recycled excess blood plasma after it has been filtered from the interstitial fluid (between cells) and returned to the lymphatic system. The cardiovascular (from Latin words meaning 'heart' and 'vessel') system comprises the blood, heart, and blood vessels. The lymph, lymph nodes, and lymph vessels form the lymphatic system, which returns filtered blood plasma from the interstitial fluid (between cells) as lymph.While humans, as well as other vertebrates, have a closed cardiovascular system (meaning that the blood never leaves the network of arteries, veins and capillaries), some invertebrate groups have an open cardiovascular system. The lymphatic system, on the other hand, is an open system providing an accessory route for excess interstitial fluid to be returned to the blood. The more primitive, diploblastic animal phyla lack circulatory systems.