Because of hydrogen bonding. Oxygen, nitrogen, and fluorine have a high boiling point.
The boiling point of deuterium oxide (D2O), also known as heavy water, is approximately 101.4°C. This is slightly higher than the boiling point of regular water (H2O) due to the heavier mass of the deuterium isotope.
The boiling point of heavy water is 101.4 °C, or 214.56 °F (374.55 K). More on heavy water can be found by using the link (provided) to the Wikipedia article.
This is false. Ionic compounds have higher boiling points than molecular compounds. For example, the boiling point of the ionic compounds copper(II) oxide, CuO, and sodium chloride, NaCl are 2,000 degrees C and 1,413 degrees C, respectively. The boiling point of the molecular compounds carbon tetrachloride, CCl4, and water, H2O are 76.72 degrees C and 100 degrees C, respectively.
Salt water boils at a higher temperature than fresh water. If a substance (salt) has a lower vapour pressure than the liquid (water) (it's relatively non-volatile in other words) then dissolving that substance in the liquid, common salt (NaCl) in water (H2O), for instance, will lower the overall vapour pressure of the resulting solution compared with the pure liquid. A lower vapour pressure means that the solution has to be heated more than the pure liquid to make its molecules vaporise. It is an effect of the dilution of the solvent in the presence of a solute.
H2O is a common phrase for water. H2O stands for 2 parts hydrogen and 1 part oxygen. Yes, steam is a part of water, when water reaches a boiling point and begins to evaporate, the result is steam.
Both H2O and HF possess H bonds as their intermolecular force but H bonds of HF are stronger than that of H2o. therefore boiling point of than that of H2O. But experimental boiling point is high in H2O than that of Hf
H2O (water) has a higher melting point and boiling point than CO2 because of the hydrogen bonds that exist between the water molecules. The hydrogen bonds are strong intermolecular forces (though they are classified as a weak bond), and help to hold separate water molecules together. Thus, the boiling point of water is higher than carbon dioxide, though they are similar in composition and mass.
The boiling point of a substance is influenced by the strength of intermolecular forces between its molecules. In the case of H2O (water), it forms strong hydrogen bonds between molecules, resulting in a higher boiling point compared to H2Se (hydrogen selenide), which has weaker dispersion forces due to larger atomic size and lower electronegativity of selenium.
Water has a higher boiling point than hydrogen selenide, because the strong hydrogen bonding of water gives it a higher "effective" molecular weight than hydrogen selenide, the unit that must be vaporized on boiling consisting on average of several water molecules rather than only one. The selenide, in contrast, forms only weak hydrogen bonds; therefore, its average "effective" molecular weight in essentially that of a single molecule.
The boiling point of deuterium oxide (D2O), also known as heavy water, is approximately 101.4°C. This is slightly higher than the boiling point of regular water (H2O) due to the heavier mass of the deuterium isotope.
The boiling point of water is 100 degrees C
water i belive
The boiling point of heavy water is 101.4 °C, or 214.56 °F (374.55 K). More on heavy water can be found by using the link (provided) to the Wikipedia article.
it depends on the sufficent amount of h2o
I am not sure but may be it is because none of the substances have a fixed boiling point. The substance starts changing its state from liquid to gas before the mentioned boiling point . For example Boiling point of H2O is 100.but it change it changes its state before it.Therefore there are boiling range not boiling point.
boiling point is 212 deg. Fahrenheit and freezes @ 32 deg. Fahrenheit.
The difference in boiling points between water (H2O) and hydrogen sulfide (H2S) is primarily due to differences in molecular structure and intermolecular interactions. Water molecules form stronger hydrogen bonds compared to hydrogen sulfide molecules, leading to a higher boiling point for water. Additionally, water molecules are more polar compared to hydrogen sulfide molecules, which also contributes to the difference in boiling points.