Peripheral resistance
Blood pressure = (Blood flow)(Resistance). This equation is usually found in the following form: MAP = (CO)(R) Where MAP is the mean arterial pressure CO is the cardiac output R is the peripheral resistance
blood flow inversely proportional to medullary osmolality & degree of concentration of urine. consider case 1, a) blood flow high , causes high H2O reabsorbtion in DLH, less secrn. in ALH., causes H2O accumulation in interstitium, leads to less H2O absorbn in loop of henle. leads to diluted urine. similaely opp. case
The rate of flow against pressure gradient graph typically shows a linear relationship. As the pressure gradient increases, the rate of flow also increases proportionally. This is in accordance with Poiseuille's law, where flow is directly proportional to the pressure gradient and the fourth power of the radius of the vessel and inversely proportional to the viscosity of the fluid.
The sensitivity is directly proportional to the number of atoms in ground state.
Blood cells are erythrocyte, leukocyte and platelets but the hematocrit is the percentage of the erythrocytes out of the total blood volume.Blood viscosity is a measure of the resistance of blood to flow, which is being deformed by either shear stress or extensional stress.So the relation of between them is they will all talk about blood flow and number of cells of the blood in a range of blood volume.**The relationship is that when red blood cells increases, hematocrit increases, and blood viscosity also increases because too much red blood cells (erythrocytes) in the blood makes the blood more dense/thicker, and therefore slows down the flow of the blood. In short, blood cells, hematocrit, and blood viscosity are all directly proportional with each other.
Yes, blood flow is inversely proportional to resistance in the cardiovascular system. When resistance increases, blood flow decreases, and vice versa. This relationship is governed by Poiseuille's Law.
Pressure is inversely proportional to flow. This means that as pressure increases, flow decreases and vice versa. This relationship is described by the principles of fluid dynamics, specifically Bernoulli's principle.
Blood pressure = (Blood flow)(Resistance). This equation is usually found in the following form: MAP = (CO)(R) Where MAP is the mean arterial pressure CO is the cardiac output R is the peripheral resistance
No, resistance is not directly proportional to charge. Resistance is determined by the material, length, and cross-sectional area of a conductor, while charge is a property of matter. The resistance will affect the flow of charge in a circuit, but it is not directly proportional to the charge itself.
No
blood flow inversely proportional to medullary osmolality & degree of concentration of urine. consider case 1, a) blood flow high , causes high H2O reabsorbtion in DLH, less secrn. in ALH., causes H2O accumulation in interstitium, leads to less H2O absorbn in loop of henle. leads to diluted urine. similaely opp. case
A hydraulic variable that describes the power provided by a hydraulic system. HHP is directly proportional to flow rate and pressure and inversely proportional to the efficiency of a system
Centrifugal pumps generally obey what are known as the pump laws. These laws state that the flow rate or capacity is directly proportional to the pump speed; the discharge head is directly proportional to the square of the pump speed; and the power required by the pump motor is directly proportional to the cube of the pump speed.
Directly proportional relationship is F=ma, F is directly proportional to a. Inversely proportional relationship is v=r/t, v is inversely proportional to t.
As vessel diameter decreases, blood velocity increases due to the principle of conservation of flow rate. This relationship is described by Poiseuille's law, which states that blood flow is directly proportional to the fourth power of vessel radius. Therefore, smaller vessels result in faster blood flow velocities.
Directly proportional. Greater speed - greater distance.
Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.