Smooth Transitions between Compartments The force that a fluid applies against a wall—hydrostatic pressure—is what moves fluid between compartments.
<h3>Where is fluid compartment?</h3>
Water makes roughly 60% of the adult human body, which is composed of intra- and extracellular fluid compartments. Extracellular fluid, which makes up 13 of the body's water, is found outside of cells. Two-thirds of the water in the body is found inside the mitochondria and is known as intracellular fluid.
<h3>Which body fluid compartment has the least fluid?</h3>
The fraction of fluid volume that is present in the gaps bordered with epithelial cells is known as transcellular fluid. It is the tiniest part of extravascular space, which also consists of plasma and interstitial fluid. Although it is often not expressed as a percentage of extracellular fluid, the body water content is around 2.5%.
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The function shown in the graph in the image attached below is
.
<u>Given the following data:</u>
- Points on the x-axis = (0, 4)
- Points on the y-axis = (0, 4)
First of all, we would determine the slope of this line by using the following formula;

Substituting the points into the formula, we have;

Slope, m = 1
Next, we would find the intercept:
Let x = 0, for the y-intercept.

b = 4
Therefore, the function shown in the graph in the image attached below is 
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The two different systems which are responsible for renal autoregulation are:
- Myogenic mechanism
- Tubuloglomerular feedback mechanism.
<h3>What is renal autoregulation?</h3>
Renal autoregulation mechanism is a kind of myogenic autoregulation which maintains a constant renal blood flow at varying arterial pressure.
So therefore, The two different systems which are responsible for renal autoregulation are: Myogenic mechanism
and Tubuloglomerular feedback mechanism.
Complete question:
What are two systems which are responsible for renal autoregulation?
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