it is because the trees and plants the absorbs water n also let them out called tanspiration or something like human give out sweat when we work out. minewhile in the polar region there are less or close to none plants or any vegetation so the water vapour is less humid there ur answer -_- i still wana complete my assigment i stumble accross ur question in the net while looking for info my my assignement
Air over Panama would contain more water vapor compared to Antarctica. Panama is located in a tropical region with high temperatures and humidity, leading to more water vapor in the air. In contrast, Antarctica is a cold and dry polar region with very little moisture in the air.
No, the water vapor content of the air over a tropical desert is typically lower than that over the polar ice caps. The polar regions are generally colder and have lower temperatures, causing the air to hold less water vapor compared to the warm tropical desert regions.
Non-polar tail refers to the hydrophobic region of a phospholipid molecule, which repels water molecules. Polar head refers to the hydrophilic region of a phospholipid molecule, which is attracted to water molecules. Together, they form the phospholipid bilayer of cell membranes.
The hydrophilic "head" region of the phospholipid is in contact with water in a lipid bilayer. This head region contains a phosphate group and glycerol and is attracted to water molecules due to its polar nature.
water vapor
Air over Panama would contain more water vapor compared to Antarctica. Panama is located in a tropical region with high temperatures and humidity, leading to more water vapor in the air. In contrast, Antarctica is a cold and dry polar region with very little moisture in the air.
A molecule that is both hydrophobic and polar has a nonpolar region that repels water (hydrophobic) and a polar region that interacts with water (polar). This unique combination of properties allows the molecule to dissolve in both water and nonpolar solvents.
Molecules with polar hydrophobic properties have a nonpolar region that repels water and a polar region that interacts with water. This creates a molecule that is both attracted to and repelled by water, making it hydrophobic.
No, the water vapor content of the air over a tropical desert is typically lower than that over the polar ice caps. The polar regions are generally colder and have lower temperatures, causing the air to hold less water vapor compared to the warm tropical desert regions.
Yes, water vapor is considered part of the hydrosphere. The hydrosphere encompasses all the forms of water on Earth, including water vapor in the atmosphere, liquid water in oceans, lakes, and rivers, and frozen water in glaciers and polar ice caps.
A molecule is polar if it has a positive and negative end, while being hydrophobic means it repels water. To be both polar and hydrophobic, a molecule must have a polar region that interacts with water and a nonpolar region that repels water. This dual nature allows the molecule to be both attracted to and repelled by water.
Non-polar tail refers to the hydrophobic region of a phospholipid molecule, which repels water molecules. Polar head refers to the hydrophilic region of a phospholipid molecule, which is attracted to water molecules. Together, they form the phospholipid bilayer of cell membranes.
An Iceberg
The polar air has a high relative humidity due to the temperature of the polar region being close to the dew point temperature. The closer the dew point temperature is to the surrounding temperature, the higher is the relative humidity. The air in the polar region is considered dry as the dew point temperature is low. Low dew point indicates low water vapor content. So since the dew point in the north pole is low, it has a low water vapor content in the air, resulting in it being dry.
No. The temperatures in this polar desert do not support liquid water.
The water is exist in the form of water ice in moon in the Northern Polar region which was found by Chandrayaan-1.
The hydrophilic "head" region of the phospholipid is in contact with water in a lipid bilayer. This head region contains a phosphate group and glycerol and is attracted to water molecules due to its polar nature.