Answer:
Taking into account that:
The flow velocity u of a fluid is a vector field
u = u (x, t)
What gives the velocity of a Fluid Plot at position x y time t.
q = || u ||
Now if the flow is continuous as it happens in the blood vessels then:
The flow of a fluid is said to be constant if it does not move over time, that is why the variant would be 0.
Explanation:
As for the pump with narrow vessels, there the area would be less, therefore the flow also and the flow velocity as well. Adding that the friction with the walls increases as it is narrower, thus generating an increase in pressure with the flow of the liquid.
So this is where we have to put emphasis on the biophysics branch that explains the following:
The Venturi effect is explained by the Bernoulli Principle and the principle of continuity of mass. If the flow rate of a fluid is constant but the section decreases, the speed necessarily increases after crossing this section. By the theorem of conservation of mechanical energy, if the kinetic energy increases, the energy determined by the value of pressure necessarily decreases.
Indeed, according to Bernoulli's principle:
P 1 + 21 ρv 12 + ρgh 1 = P 2 + 21 ρv 22 + ρgh 2
I don't know
- Work on developing effective communication
- Approach institutions that provide mentoring
- Attend workshops and conferences
Making a strategy that incorporates extensive research and inquiry is quite beneficial. Colleges do a fantastic job of hosting on-site recruitment events for nursing students.
Numerous healthcare businesses travel great distances to attend these occasions and connect with prospective new grads (as well as undergraduates). Despite being a one-stop shop, these options might be overwhelming, so having an interview plan is crucial.
A recent graduate should have a backup plan in place if they have a strong desire to work at a specific hospital in a specific unit, such as where they did their clinical rotation, but the opportunity does not exist.
Here is another question with an answer similar to this about nursing graduates: brainly.com/question/14517615
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ABG results that are most consistent with this diagnosis are:
- pH of the patient : 7.20
- Pa
of patient is low : 65 mm Hg
- 
of patient : 26 mEq/L
<h3>What is ABG?</h3>
- An arterial blood gas (ABG) test, which draws blood from an artery in your body, determines the levels of oxygen and carbon dioxide in your blood.
- The pH balance, sometimes referred to as the acid-base balance, of your blood is also examined during the test.
- The National Institute of Health lists the following as typical normal values: pH: 7.35-7.45.
- Oxygen partial pressure (Pa
) ranges from 75 to 100 mmHg. Carbon dioxide (Pa) partial pressure ranges from 35 to 45 mmHg.
- The blood gas test can reveal how efficiently your lungs can introduce oxygen into the blood and expel carbon dioxide.
Learn more about ABG here:
brainly.com/question/24870470
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You go to your profile then click on “my questions” and all the questions you have asked should pop up there
Answer: D) precapillary sphincters relax.
Explanation:
Blood flow to a tissue will decrease if precapillary sphincters relax as, capillaries provides glucose and oxygen to the cells and allows blood to flow through it when the muscle ring known as the precapillary Sphincters get relaxed. The blood flow is stopped when the precapillary sphincters constrict flow of blood. As, certain chemical signals causes feeder arterioles to dilate and bring more blood into local areas then, it causes precapillary sphincters to relax.
