<u>Answer:</u>
<em>The </em><em>two</em><em> </em><em>main feature for Microscope</em><em> is to get more detailed view of a microscopic </em><em>thing or matter</em><em> and also to identify </em><em>microbes and pathogens.</em>
<u>Explanation:</u>
Microscope has made <em>various concept change after getting a glance</em> at the Microscope. So this as became the main feature for Microscope is to get more <em>detailed view of a microscopic thing or matter. </em>
So, before the <em>idea of human created by matter</em> was not accepted by people until people saw for themselves. And also, for the diseases and virus microscope has made it lot easier to figure out the problem with <em>microbes and pathogens</em>.
Answer: OC. The fetus begins to move to a head-down position.
Explanation: This happens after other features of the baby are also finishing development, such as eyelashes and eyebrows. The lungs are also the last major organ to finish developing during this time.
Communities have conserved and protected forests and wildlife in India through the following methods.
- They safeguard the wildlife hostile to any foreign invasion with their own rules and regulations.
- They do not authorize the activity of hunting animals.
- Some types of movements like Beej Bachao Andolan, Chipko movement, etc. also spread awareness among people to protect forests and wildlife.
<h3>What is Wildlife?</h3>
Wildlife may be defined as any form of living thing especially mammals, birds, and fishes that are neither human nor domesticated. They are always protected from human interference.
The effects of communities are directly associated with the protection and conservation of wildlife and forests in every country.
Therefore, the methods through which communities have conserved and protected forests and wildlife in India are well mentioned.
To learn more about Wildlife, refer to the link:
brainly.com/question/24200891
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<span> air pressure decreases, so does air density.</span>
Answer:
The type of protein that binds a ligand on the cell surface or within cells are transmembrane receptors. These proteins have 3 domains: an extracellular part that does the binding, a hydrophobic domain that extends through the membrane, and an intracellular region that transmits the signal. The most common membrane-anchored receptors are: G protein-coupled receptors, receptor tyrosine kinases, and ligand-gated ion channels.
