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No chemical or solution is likely to be considered an explosive hazard in millimetres - just as none would be in tenths of inches.
Yes, it is. Silver chlorate is soluble and forms an aqueous oxidizing solution. In its dry state, it is a relatively weak explosive chemical.
Well vapor pressure also depends on the mole fraction of a substance. Vapor pressure= Mole fraction* Total pressure of the solution. If the Mole fraction of a volatile substance in the solution is decreased its vapor pressure increases. Thus the volatility of the substance barely plays the role. Of course, if the solution has no volatile substance there cannot be any vapor pressure in the container.
A solution has not a chemical formula; the solution has a composition.
Dissolution is usually considered a physical reaction, although weak chemical bonds between the solute and solvent may exist in the solution.
when the vapor pressure is greater than 5 mm
The pressure is greater then 10 mm.
No chemical or solution is likely to be considered an explosive hazard in millimetres - just as none would be in tenths of inches.
greather than 10mm hg
greather than 10mm hg
greather than 10mm hg
greather than 10mm hg
greather than 10mm hg
There is no chemical solution for milk because milk is not a chemical. Milk is usually considered a type of colloid.
Yes, it is. Silver chlorate is soluble and forms an aqueous oxidizing solution. In its dry state, it is a relatively weak explosive chemical.
Well vapor pressure also depends on the mole fraction of a substance. Vapor pressure= Mole fraction* Total pressure of the solution. If the Mole fraction of a volatile substance in the solution is decreased its vapor pressure increases. Thus the volatility of the substance barely plays the role. Of course, if the solution has no volatile substance there cannot be any vapor pressure in the container.
Solubility is the aptitude of a chemical substance to be soluble (to form a homogeneous solution) in a given solvent. An unsaturated solution is a solution which can dissolve further the solute, at a given temperature and pressure.