The best example of erosion would be the deepening of a stream bed by pebbles rolling along the bottom of the stream.
<h3>What is erosion?</h3>
It is a process that leads to the removal of soil, rocks, or any other material by the action of water, wind, or ice.
Erosion is opposed to weathering which happens to be the breakdown or the dissolution of materials by agents of weathering.
Thus, breaking of shale, dissolving of rock particles, and crumbling of bedrock are all weathering processes while the deepening of a stream by pebbles rolling along the bottom of the stream exemplifies an erosion.
More on erosions can be found here: brainly.com/question/3852201
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Answer: radiant, chemical, mechanical, chemical, radiant
Explanation:
Sunlight - electromagnetic energy (radiant)
life - chemical energy
compression - chemical and mechanical energy
retrieve coal - mechanical
burning - chemical, radiant
The phenotype of the parents will be all red.
The monohybrid snapdragons are generating red and white seeds in the ratio 3: 1 with the white (r) phenotype being recessive and the red (R) phenotype being dominant. Thus, they would possibly have the parents exhibiting genotypes, Rr and Rr, that is, both red.
The gametes generated by these parents are R and r. The cross of these parents will lead to the formation of the following generation shown in the cross below, that is, in the ratio 3: 1 (red: white).
There would be an increase in "Zebra" and "Gazelle" population. This is due to the fact that there wouldn't be as many lions to eat the zebras and gazelles, causing their repopulation to become more frequent.
The farsightedness or hyperopia occur when light focused behind the retina. The main reason of this type of abnormality is that because of the lens and cornea may not be able to bend the light rays to focus them on the retina. Hence the light rays focused behind the retina. The other reasons of hyperopia are the small size of the eyeball which causes the decrease in the refractive power of cornea and lens. Due to this small size of the eyeball the light rays focused behind the retina.
