A higher dew point indicates a greater amount of moisture in the air, which can make it feel more humid. This can lead to a more uncomfortable feeling, as sweat is less likely to evaporate off the skin, causing people to feel hotter. It can also potentially lead to issues like mold growth or breathing difficulties for some individuals.
Water flows from a higher elevation to a lower elevation due to gravity. It seeks the lowest point possible as it moves downstream.
The boiling point is always higher than the melting point.
CH3CH2CH3 (propane) has a lower boiling point than CH3CN (acetonitrile) because CH3CN has stronger dipole-dipole interactions due to its polar cyano group. This results in higher intermolecular forces in CH3CN, leading to a higher boiling point compared to propane.
No, rainwater and seawater will not boil at the same temperature. Seawater has a higher boiling point than rainwater due to the presence of dissolved salts and minerals, which raise the boiling point of the water.
The higher the pressure being exerted on the water, the lower the boiling point becomes. Yes the boiling point is affected in a pressurized system. If you put water in a sealed container and kept raising the pressure it will eventually reach it's boiling point without the need of adding heat.
Boiling point you mean, and H20 has a higher BP
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no..ethers are always low in boiling point than alcohol due to alcohols hydrogen bonds
Bromoform would have a higher boiling point than chloroform due to the presence of heavier bromine atoms. The increased molecular weight of bromoform leads to stronger van der Waals forces between molecules, resulting in a higher boiling point.
The temperature of the outer core is higher than its melting point. The outer core is mainly composed of liquid iron and nickel, which has a melting point higher than the temperature of the outer core due to the immense pressure at that depth.
The boiling point of a substance is lower at higher altitudes due to lower atmospheric pressure, which reduces the pressure exerted on the liquid. In contrast, at low altitudes with higher atmospheric pressure, the boiling point is higher as more pressure is needed to overcome atmospheric pressure.
Ethanol (C2H5OH) has a higher boiling point than methane (CH4) because it has stronger intermolecular forces, specifically hydrogen bonding, which requires more energy to overcome and boil. This results in a higher boiling point for ethanol compared to methane.
Water flows from a higher elevation to a lower elevation due to gravity. It seeks the lowest point possible as it moves downstream.
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Ethanol (C2H5OH) has a higher boiling point compared to methyl ether (CH3OCH3) due to hydrogen bonding in ethanol. Hydrogen bonding results in stronger intermolecular forces in ethanol, requiring more energy to overcome, hence a higher boiling point.
The boiling point of water will be greatest at that point on Earth that is the closest to sea level. Boiling point of water depends on the atmospheric pressure. The boiling point of water varies depending on the weather. At low atmospheric temperatures due to weather or due to being up a mountain, the water will boil below its "normal" boiling point of 100 oC
It means that the substance has a higher boiling point than water and requires more energy to change from a liquid to a gas. This can be due to stronger intermolecular forces in the substance compared to water.