Answer:
The best answer to the question: The most inferior cartilage of the larynx is the:____ and serves as the landmark for tracheotomies, would be: the cricoid cartilage and the place where even unskilled medical respondents can perform cricothyrotomy, in case of acute respiratory obstruction is known as the cricothyroid membrane which connects the upper thyroid cartilage and the lower cricoid cartilage.
Explanation:
In the structure of the larynx, there are several cartilaginous structures, and bony structures, that provide both support and protection to the tube that connects the upper airways with the lower airways and the lungs. These cartilages ensure that these functions are provided and that air and foodstuffs, including water, reach the proper places. On the larynx, going down towards the lungs, we have three single cartilaginous structures and three paired ones, before it turns into the trachea. The two lowest ones are the thyroid and the cricoid. These two are also joined by the cricothyroid membrane. The cricoid is the lowest, or most inferior of the cartilages and it is also the place where health professionals seek the mark to perform what is known as cricothyrotomy, or, tracheostomy.
Homeostasis is the phenomenon. It is carried out in the human body to maintain a constant internal environment. They will take care of the temperature and regulate them. They will take care of the temperature and regulate them. If the person does heavy exercise or lives in a very hot or very cold environment, it will affect the homeostasis.
Mechanisms are the way in which we take into consideration reactions-the way we predict response outcomes and the best way we predict how you can compose new supplies and uncover new chemistry.
With an easy listing of reagents, and solely a number of reactions at this point, it's easy as a,b,c to assume "I need not know the mechanisms, I simply must know the products." At this level, unfortunately, you might be right. But, chemistry is complicated-molecules get silly with so various reactive groups, and so numerous competing reactions are attainable in a variety of cases. We have to have the ability to foretell what's prone to occur in a given case and perceive what occurred when a response went bad. If we are able to work out the mechanism, we will re-engineer the response situations to extend our yields, lower the formation of byproducts, and even vary the response merchandise altogether.
In short, they're the best way biological chemists (esp. artificial biological chemists) craft sense and impose order on the freakin' randomness and chaos of chemical reactions. It is good when issues occur love you're thinking that they should, but they repeatedly don't. And it's worthwhile to discover why.
I tried my best, I am only in my second year of learning medicine in High School, so if it's wrong. Please let me know! :D
Pretty sure it’s A! Because I looked up all the others and they were true
Answer:
Paget's Disease? Order physical therapy and possibly bisphosphonates
Explanation: