Answer:
The epidemic caused us to quarantine if we got infected to protect those around us.
Explanation:
Given what we know, we can confirm that if a population of animals has a short gestational period and travel in large groups, this will result in increased mating leading to higher birth rates and an increase in individuals.
<h3>How is the gestational period related to birth rates?</h3>
- The gestational period refers to the time it takes an organism to fully develop a newborn.
- This means that a pregnant female of this animal group will not take very long to give birth.
- This also implies a short recovery period.
- This results in the females being able to breed more often and thus will increase birth rates.
Therefore, given that the females in the group will carry the fetus for very short amounts of time due to the short gestational periods, they will become available to breed more often and thus will result in higher birth rates and increased population size.
To learn more about gestation visit:
brainly.com/question/6769769?referrer=searchResults
<u>What is ischemia?</u>
It can affect your heart, your intestines, and any part of your body. If this happens it can end up triggering a sequence that leads to your death.
<u>Ischemia is.. </u>
an inadequate supply of oxygenated blood to all or part of a tissue or organ as a result of an obstructed or constricted blood vessel.
<u>Not sure what you mean by "Coronary infraction?", but</u>
The word "infarction" comes from the Latin "infarcire" meaning "to plug up or cram."
Answer:
Peripheral membrane proteins (select one):
D) are generally noncovalently bound to membrane lipids.
Explanation:
Peripheral membrane proteins are membrane protenis that adhere only temporarily. These don't penetrate deeply into the lipid bilayer, just penetrate the peripheral regions. Also <em>they are bound to either face of the membrane by noncovalent interactions.</em> There are many different categories of peripheral membrane proteins: Membrane-targeting domains; transporters of small hydrophobic molecules
; electron carriers
; Polypeptide hormones, toxins, and antimicrobial peptides; structural domains; enzymes.
