Because the boiling point of the compound is relatively low, the compound is likely to be in the form of individual molecules.
A compound with a boiling point of 68 c is likely to be in the form of individual solids. Network solids generally have much higher boiling points.
it will be a network solid. Network solid
Physical science is fun!
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Whe you boil water, molecules of water "escape" into the atmosphere. The molecular structure of water is unaffected by boiling.
Smaller molecules have a lower boiling point, and larger molecules have a higher boiling point. Source: Learnt this in class today.
The boiling point of any compound is determined by how much energy it takes to break apart the intermolecular bonds. C6H14 has very low intramolecular forces compared to the polar bonds of another compound, such as water.
The melting point and boiling point of a substance come under the category of phase changes. And the temperature at which these phase changes occur are related to the intermolecular forces holding the molecules of the substance together.
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Nonpolar molecules
ture
Whe you boil water, molecules of water "escape" into the atmosphere. The molecular structure of water is unaffected by boiling.
The compound would likely be a network solid because 68 degrees C is 154.4 degrees F, which is a good amount of heat energy to be creating to separate the elements in the compound. Therefore, it is network solid, which requires large amounts of energy to separates the elements within it.
Smaller molecules have a lower boiling point, and larger molecules have a higher boiling point. Source: Learnt this in class today.
Water molecules are strongly intermolecularily bonded by (polar) hydrogen bonding.
When water is hot enough, the motion of the individual water molecules is fast enough to overcome the attraction that water molecules have for each other, which results in their escape from the liquid into the gas phase.
The boiling point of any compound is determined by how much energy it takes to break apart the intermolecular bonds. C6H14 has very low intramolecular forces compared to the polar bonds of another compound, such as water.
The melting point and boiling point of a substance come under the category of phase changes. And the temperature at which these phase changes occur are related to the intermolecular forces holding the molecules of the substance together.
Polar molecules of smilar size to non-polar molecules have a higher melting and boiling point due to their stronger force of attraction.. eg. CO2. which is non-polar, you can can find free floating in the atmosphere whereas a polar molecule such as Water, doesn't boil until it reaches at least 100(Co) degrees. i like dump
The boiling point of a compound is independent from the concentration.