That is a very interesting statement, and I definitely agree that “not all the influences (of the Coriolis effect) get noticed” (the human race still has much to explore and discover!), but could you elaborate more on how “not all objects are influenced by it (the Coriolis effect)”? From https://www.nationalgeographic.org/encyclopedia/coriolis-effect/ , the Coriolis effect definitely brings many large scale impacts, both on a regional and global scale. I would like to hear your opinion on how certain things go uninfluenced by the Coriolis effect, thank you very much!
Answer:
speed = 1037.5 miles per hour
day and night will be more longer
and in day temperature will be increase
and in night low temperature will be low
Explanation:
given data
circumference of Earth = 24,900 miles
to find out
how fast someone at the equator is rotating in miles per hour
solution
we know that speed is
speed =
we assume time for one rotation is 23:56:04 that is equal to 23.934 hours per day and we consider around 24 hours per day
so
from equation 1
speed =
speed = 1037.5 miles per hour
and if the rotational speed of Earth were to slow down then rotation time will be longer than 24 hours per day
so day and night will be more longer
and in day temperature will be increase
and in night low temperature will be low
Yes, you would expect to see a mountain range at a mid-ocean ridge
C:these mountains show no evidence of folding