Atmospheric pressure is inversely proportional to
a. temperature
b. altitude
c. non of these
d. both of these
Answers
Answered by
3
Answer:
altitude
Explanation:
It is inversely proportional to altitude
Answered by
70
b
atmosphere pressure is inversely proportional to altitude
we use pressure cooker at high altitude because atmospheric pressure is low at high altitude and due to which food boils at low temperatures and not get cooked properly
so we use pressure cooker to increase pressure so that food get cooked properly
atmosphere pressure is directly proportional to temperature means if we increase pressure then temperature also increase
to explain this take an example of air pump
when we use pump to fill air in our cycle then due to increase in pressure the temperature of pump also increase.
atmosphere pressure is inversely proportional to altitude
we use pressure cooker at high altitude because atmospheric pressure is low at high altitude and due to which food boils at low temperatures and not get cooked properly
so we use pressure cooker to increase pressure so that food get cooked properly
atmosphere pressure is directly proportional to temperature means if we increase pressure then temperature also increase
to explain this take an example of air pump
when we use pump to fill air in our cycle then due to increase in pressure the temperature of pump also increase.
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