Physics is known to be a natural science. It majorly entails the study of matter and the motion of matter through time and space, along with related concepts such as force and energy. Does the circulatory system apply concepts in physics as the blood circulates through the entire system? The circulatory system’s main objective is to transport blood throughout all the necessary parts of the body. The blood in effect transports nutrients and oxygen to these body parts and wastes away from these body parts to the organs that excrete them out of the body. The heart is the nerve centre of the circulatory system. This is so as it is this organ that pumps the blood that carries both the nutrients and wastes to the appropriate parts of the body. …show more content…
The other components of the blood such as the erythrocytes and leukocytes occupy the remaining 1% of the total blood volume in the entire circulatory system.
As the blood flows in the blood vessels, the blood, just like any other fluids, experiences a viscous drag. Viscosity is experienced when a layer of liquid within a given flowing liquid exerts frictional forces on the other layers of flowing liquid due to different velocities with these separate layers of liquid are flowing at. The fluids that are flowing at a relatively slower velocity mostly found on the external layer of the fluid flowing will exert on the layers of fluid flowing in the internal parts of the fluid a viscous drag. The difference in the velocities of flow of the two layers of the same liquid could be caused by frictional forces between the external layer of the flowing liquid and the walls of the blood vessels as they move about the circulatory system. In physics, work output is calculated by multiplying force applied by the displacement caused. However, the cardiac output is got by multiplying the heart rate by the volume of the stroke. The cardiac output is determined by the strength of contraction and also by the resistance of the peripheral flow. The stroke volume of a typical adult is 80ml. it also takes about one minute for the average red blood cell to make one complete cycle of the entire body. The maximum cardiac
The cardiovascular system, which consists of the heart and blood vessels, is the circulatory systems in our body. The major function of the system is transportation; the heart is the system pump and the blood vessels are the delivery routes. The heart transport respiratory gases, nutrients, wastes, and other substances vital to the body’s homeostasis to and from the cells by using the blood as a medium.
There are three main types of blood vessels: arteries, veins, and capillaries. Arteries are vessels that usually carry highly oxygenated blood away from the heart and to the rest of the body. (The pulmonary trunk and related arteries are exceptions, as they actually carry blood from the lungs toward the heart.) Because arteries must transport high volumes of blood being forcefully pumped out by the heart and must therefore withstand greater pressure, most have thick, muscular walls and are more flexible as well. Arterioles, smaller types of arteries with thinner walls, branch off of the arteries to carry blood to another type of vessel, called the capillary. Capillaries are the most abundant blood vessels in the body. Thinner and smaller than the other blood vessels, the role of capillaries is to exchange substances like water, gases, chemicals, nutrients, wastes, etc. with the tissues of the body. The third type of blood vessel is the vein. Although they are generally larger than the other blood vessels, veins tend to have thinner, less flexible walls, as they are not forced to deal with such high blood pressures. Venules (veins’ versions of arteries’ arterioles) connect the capillaries to the veins, which then transport blood back
If the resistance increases, cardiac output decreases and the blood pressure increase and if the resistance decreases, cardiac output increase and the blood pressure decreases. During each contraction, the amount of blood pumped out by one ventricle is stroke volume. The number of heartbeat in each minute is known as heart rate. The normal heart rate value for adult is 60-100 beats per minute. The cardiac output is directly proportional to the stroke volume and heart rate. The average arterial pressure during one cardiac cycle is mean arterial pressure (MAP), which is directly related to the cardiac output and resistance. The instrument sphygmomanometer with an air cuff attached to the reservoir is used to detect blood pressure associated with the pulse.
The two systems are such close partners that they are explored together in this chapter
The Circulatory system is responsible for the transport of blood throughout the body. The Circulatory system has many organs. The main components are the heart, the blood, and the blood vessels. It also consists of arteries, arterioles,
The cardiovascular system is part of the larger circulatory system, which circulates fluids throughout the body. The circulatory system includes both the cardiovascular system and the lymphatic system. The cardiovascular system moves blood throughout the body, and the lymphatic system moves lymph, which is a clear fluid that’s similar to the plasma in blood.
To name the two major components of blood and state their average percentages in whole blood.
Blood is a red fluid that contains a complex mixture of cells suspended in a liquid matrix which is transported (circulated) throughout the body by the circulatory system of an organism. It circulates around the body by the heart and delivers oxygen and other important nutrients to cells of organs and tissues, while at the same time, removing waste product from our body. Blood is located in almost every part of our body, which is due to the network of blood vessels called the circulatory system. It is circulated through the body’s heart, arteries, veins and capillaries (tiny vessels that connect arteries and veins). In order for blood to carry out its functions, it needs to circulate all over our body to all living cells and tissues which it does through the support of the heart that pumps blood throughout our entire body). Thus, it is the fluid of life, a vital life force that all humans need in order to live and sustain life.
Blood is a liquid connective tissue as it is made up of living cells (red and white). Oxygen is transported in red blood cells, attached to a protein called haemoglobin while nutrients, including glucose, are dissolved in the
Is the relationship between blood vessel length and blood flow rate directly proportional or inversely proportional? Why? They are directly proportional peripheral resistance.
Did you know the circulatory system comprises the heart, veins, capillaries and arteries? The system moves pure oxygenated blood in a continuous and controlled way from the lungs and heart so that blood can reaches every cell. Blood travels through a type of network of vessels that include capillaries that permeate every tissue of the body. Once it’s depleted of oxygen, the blood returns to the lungs and heart and the cycle continues.
Stroke volume is the amount of blood pumped out of the heart and into the body from the left ventricle during each contraction and is measured in millilitres per beat. When the heart is resting stroke volume is at a normal pace. When the heart rate starts to increase stroke volume has to become faster and pump more blood out of the heart
Blood is one of the most vital components of the human body. The blood carries many functions such as to supply oxygen to the bodies tissues, remove metabolic waste products, regulate our core temperature as well as fighting infection and foreign bodies (Glover, 1997). The cardiovascular system is composed of the heart and its vessels. The heart is an involuntary muscle which receives blood to the atrias, which is then pumped via the ventricles. The vessels are composed of three main types. Arteries, veins and capillaries; all which transport blood throughout the entirety of the body. The constant action of both the vessels and heart ensure that the body receives a continuous supply of blood, keeping us within our homeostatic limits.
veins to the tissues of the body. These walls do not let out blood but
The arteries are thicker and more elastic because of the fast pumping of blood that leaves the heart to other organs to the body, as where the veins are small due to the low blood flow because of the slow movement from the capillaries to the veins not like the forceful pumping from the heart to the arteries to the rest of the body. The Oxygenated blood goes through the arteries except the pulmonary arteries. Then Deoxygenated blood goes through the veins except the pulmonary veins. The lumen of the artery is narrow, were as the lumen of the veins is wider. There are not valves in the arteries, were as the valves are present in veins. In the arteries, endothelial cells of tunica intima are more long then wider, and have more elastic membrane that is more developed. Then the Tunica media is more muscular, and the tunica extrema is not as developed. In veins, the endothelial cells of tunica intima are not as long and have more elastic membrane then being developed. The Tunica media is less muscular were the tunica extrema is more developed. Arteries are deep within and the veins are more superficial. Capillaries are microscopic vessels; they carry blood from the arterioles then go to the small veins or venules. The wall of the capillary made up of a