smell it :)
The hydrogen bonding present between the two molecules is known as intermolecular hydrogen bonding, the molecules may be similar or may be dissimilar. The molecules having intermolecular hydrogen bonding have high melting and boiling points and low volatility. They are more soluble in water as compared to the molecules having intramolecular hydrogen bonding.
They have high melting point
Ketones
High vapor pressure and low intermolecular forces
Potassium chloride is an ionic compound. The bond holding the atoms together is known as ionic bond. Strictly speaking it is NOT a discrete molecule of K + Cl- but a crystal lattice consisting of each K+ surrounded by Cl- ions and vice versa. The bonds in this lattice all have to be broken to melt the compound. There is a strong electrostatic force of attraction between the chloride ions and the potassium ions. A large amount of heat energy has to be applied to break the strong bond holding the atoms, resulting in the compound having a high melting point.
the volatility of any unknown compound can be known by comparison method between the compound whose volatility is known by the use of paper chromatography. since the high volatile compound has less or no adsorptions to the stationary phase of the parer (the compound is less polar or non-polar) it will move high with the solvent, thus, having high Rf value. The polar compound or less volatile compound will have less Rf value. The conclusion therefore, can be made from the differences in their Rf values
how high the risk is
Alkanes high volatility as the type of Intermolecular Force of it is Van Der Waals', which is the weakest bond.
High volatility.
volatility is the relative rate at which the price of a security moves up and down. Volatility is found by calculating the annualized standard deviation of daily change in price. If the price of a stock moves up and down rapidly over short time periods, it has high volatility. If the price almost never changes, it has low volatility
volatility is a property of matter. volatility of matter tells u the ability of that particular matter to evaporate. certain type of matter may have high degree of volatility where as others may have low or even no volatility.. eg: petrol is highly volatile. Even if it is left for a small time in the sun, it will evaporate very quickly.
It's not necessary. If a compound has high optical density, it means that it absorbs more light at the given wavelength than some reference compound. There is no simple relation between density of matter and optical density. Even more I am pretty sure you can find a lot of compounds with lower densities (of matter) but having high optical density.
continued high volatility, but probably not a recession. expect to make 5-8%
Usually different compounds have a specific freezing, melting, and boiling point. There are all types of different compounds out in the world but it also depends on their intermolecular forces. In weak bonds, volatility and pressure is high, while boiling point is low. In strong bonds, volatility and pressure is low, while boiling point is high.
4-nitrophenol has intramolecular (with different molecules) hydrogen bonding and a lot of molecules are held together due to this. and have high volatility. 2-nitrophenol is having intramolecular (within same molecule) hydrogen bonding, which is weak and is stam volatile.
Electoral volatility refers to the degree of change in voter behavior between elections. It can be measured by shifts in party support, voter turnout, or the number of competitive races. High levels of electoral volatility suggest a less stable political environment, with voters being more willing to switch their allegiance between different parties or candidates in consecutive elections.
The hydrogen bonding present between the two molecules is known as intermolecular hydrogen bonding, the molecules may be similar or may be dissimilar. The molecules having intermolecular hydrogen bonding have high melting and boiling points and low volatility. They are more soluble in water as compared to the molecules having intramolecular hydrogen bonding.