Because their relationship was so strong they can do anything <3
It takes more energy to break the bonds because they are stronger.
Carbon dioxide exists as a gas at stp, and water exists as a liquid. Therefore, CO2 has already passed the boiling point, so water has the higher boiling point.
CO2 is a compound made of non-metals. Compounds made of non-metals are called covalent molecular substances. Covalent molecular substances have a low melting and boiling point because there are weak intermolecular forces between the molecules of the compound and needs only a little thermal energy to separate the particles. But its only the IM forces that are broken not the covalent bonds. There you go, i hope that helped
2,22 1023 molecules of carbon dioxide is equal to 0,368 moles.
Carbon dioxide molecules are very important for photosynthesis
It takes more energy to break the bonds because they are stronger.
2 molecules are produced
The difference between sulphur dioxide and sulphur trioxide is that there are 2 molecules of oxygen present in sulphur dioxide (SO2) and there are 3 molecules of oxygen are present in sulphur trioxide (SO3).
Explosion
Carbon dioxide exists as a gas at stp, and water exists as a liquid. Therefore, CO2 has already passed the boiling point, so water has the higher boiling point.
CO2 is a compound made of non-metals. Compounds made of non-metals are called covalent molecular substances. Covalent molecular substances have a low melting and boiling point because there are weak intermolecular forces between the molecules of the compound and needs only a little thermal energy to separate the particles. But its only the IM forces that are broken not the covalent bonds. There you go, i hope that helped
Carbon dioxide is unstable in water. It forms a equilibrium changing between aqueous and gaseous form. This makes it impossible to tell how many molecules are in water.
You Ultimately would not expect them to have similar melting and boiling points.This is because Carbon Dioxide is a gas, it might have strong covalent bonds between their atoms but between their molecules they have weak intermolecular forces, therefore these forces are easily overcome during heating in lower temperaturesHowever when you look at Silicon Dioxide, it has a macromolecular structure. In other words the whole solid is actually just one molecule which its atoms are each covalently bonded to each other. Therefore since it has strong covalent bonds between them you would expect them to have extremely high melting and boiling points.Diamond is a macromolecular structure and it has a melting point of 3006 degrees centigrade. You could expect Silicon Dioxide's melting point (and boiling point) to be similarly high.
They aren't the same. The boiling point of carbon dioxide is -57 oC. (Wikipedia)
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.
Yes. All have very strong bonds between the atoms, but much weaker forces holding the molecules together.When one of these substances melts or boils, it is these weak 'intermolecular forces' that break, not the strong covalent bonds within the molecule.
The gas that is produced if you blow carbon dioxide in boiling water is carbonic gas (H2CO3).