Contents

- 1 How do you calculate resistance in physiology?
- 2 How do you calculate resistance to flow?
- 3 How do you calculate the total peripheral resistance?
- 4 What is the formula for blood flow?
- 5 What is the relationship between pressure and resistance?
- 6 What is a resistance?
- 7 What is the unit of flow resistance?
- 8 How do I calculate flow rate?
- 9 What is the most important factor in calculating resistance?
- 10 What is map equation?
- 11 What increases total peripheral resistance?
- 12 What is resting total peripheral resistance?
- 13 What are the 2 types of circulation?
- 14 At what speed does blood flow?
- 15 What increases resistance to circulation?

## How do you calculate resistance in physiology?

Physiology Tutorial – Blood Flow. where Q = flow rate (volume/time); ΔP = pressure difference (mm Hg); and R = resistance to flow (mm Hg x time/volume).

## How do you calculate resistance to flow?

How to Calculate Flow Resistance for Liquids

- I = Flow rate.
- H = Differential pressure.
- V = Viscosity correction factor. V factors compensate for the interaction of viscosity and device geometry and are unique to each class of device. See “V” factors graphs for typical Lee orifices. Use 1.0 for water @ 80°F.

## How do you calculate the total peripheral resistance?

Total peripheral resistance (TPR) is determined as the quotient of ModelFlow-derived MAP divided by CO. TPR_{est} was obtained as the quotient of mean arterial pressure in millimeters of mercury (mmHg) divided by cardiac output in liters per minute (L/min) [ Equation 2].

## What is the formula for blood flow?

Because of this, the velocity of blood flow across each level of the circulatory system is primarily determined by the total cross-sectional area of that level. This is mathematically expressed by the following equation: v = Q/A.

## What is the relationship between pressure and resistance?

In the arterial system, as resistance increases, blood pressure increases and flow decreases. In the venous system, constriction increases blood pressure as it does in arteries; the increasing pressure helps to return blood to the heart.

## What is a resistance?

Resistance is a measure of the opposition to current flow in an electrical circuit. Resistance is measured in ohms, symbolized by the Greek letter omega (Ω). All materials resist current flow to some degree.

## What is the unit of flow resistance?

Just as the “ohm” defines electrical resistance, the “Lohm” or “liquid ohm” can be used as a measure of fluid resistance. The Lohm is defined such that 1 Lohm will flow 100 gallons per minute of water with a pressure drop of 25 psi at a temperature of 80°F.

## How do I calculate flow rate?

Q=Vt Q = V t, where V is the volume and t is the elapsed time. The SI unit for flow rate is m^{3}/s, but a number of other units for Q are in common use. For example, the heart of a resting adult pumps blood at a rate of 5.00 liters per minute (L/min).

## What is the most important factor in calculating resistance?

The three most important factors affecting resistance are blood viscosity, vessel length and vessel diameter and are each considered below.

## What is map equation?

To calculate a mean arterial pressure, double the diastolic blood pressure and add the sum to the systolic blood pressure. Then divide by 3. For example, if a patient’s blood pressure is 83 mm Hg/50 mm Hg, his MAP would be 61 mm Hg. Here are the steps for this calculation: MAP = SBP + 2 (DBP)

## What increases total peripheral resistance?

Peripheral resistance is determined by three factors: Autonomic activity: sympathetic activity constricts peripheral arteries. Pharmacologic agents: vasoconstrictor drugs increase resistance while vasodilator drugs decrease it. Blood viscosity: increased viscosity increases resistance.

## What is resting total peripheral resistance?

Systemic vascular resistance (SVR) refers to the resistance to blood flow offered by all of the systemic vasculature, excluding the pulmonary vasculature. This is sometimes referred as total peripheral resistance (TPR).

## What are the 2 types of circulation?

1. There Are Two Types of Circulation: Pulmonary Circulation and Systemic Circulation. Pulmonary circulation moves blood between the heart and the lungs. It transports deoxygenated blood to the lungs to absorb oxygen and release carbon dioxide.

## At what speed does blood flow?

The 5 quarts of blood an adult male continually pumps (4 quarts for women) flow at an average speed of 3 to 4 mph — walking speed. That’s fast enough so that a drug injected into an arm reaches the brain in only a few seconds. But this blood speed is just an average.

## What increases resistance to circulation?

Blood flow is slowest in the capillaries, which allows time for exchange of gases and nutrients. Resistance is a force that opposes the flow of a fluid. In blood vessels, most of the resistance is due to vessel diameter. As vessel diameter decreases, the resistance increases and blood flow decreases.