Naphthalene and acetone are not known to react violently with each other, so mixing them typically does not lead to an explosion. However, naphthalene is flammable, and acetone is a volatile solvent, so their combination can pose fire hazards if exposed to an open flame or high heat. Proper safety precautions should always be taken when handling these substances.
Organic solvents that can dissolve naphthalene include benzene, toluene, xylene, and tetrahydrofuran (THF). These solvents have a non-polar nature and are capable of breaking the intermolecular forces holding naphthalene together.
Naphthalene and potassium sulfate can be separated through a process called recrystallization. Since naphthalene is soluble in organic solvents like ethanol or acetone but potassium sulfate is soluble in water, one can dissolve the mixture in a suitable solvent. Afterward, the solution can be filtered to remove the insoluble potassium sulfate, and naphthalene can be recovered by evaporating the solvent. Alternatively, differences in melting points could also be exploited, as naphthalene has a melting point of about 80°C, while potassium sulfate remains solid at that temperature.
When naphthalene and glycerin are mixed, naphthalene, a solid hydrocarbon, does not dissolve well in glycerin, which is a polar liquid. Instead, the naphthalene may float on top or form a separate layer, as it is less dense than glycerin. Additionally, the two substances do not chemically react, so the mixture remains physically distinct without forming a new compound. The result is a heterogeneous mixture with naphthalene crystals suspended in the glycerin.
The boiling point of water becomes decreased because acetone is highly volatile liquid its molecules decrease the effect of hydrogen bonding in water molecules therefore water becomes evaporated easily.
Liquid naphthalene is typically obtained by melting solid naphthalene. This can be done by heating solid naphthalene to around 80 degrees Celsius until it liquefies. It is important to handle naphthalene with care as it is toxic and flammable.
Naphthalene is soluble in acetone because both substances are nonpolar. Acetone is a polar aprotic solvent, which can dissolve nonpolar substances like naphthalene due to the weak van der Waals forces between the acetone molecules and naphthalene particles.
This information is not in my copy of the Chemical Rubber Company's Handbook of Chemistry and Physics, which is normally a pretty go-to source. It's probably in Gmelin, but unless you live near a very good library good luck with that. (If you don't know what Gmelin is, if you're not a chemist don't worry about it. If you are a chemist, find out.)It may be quicker to find out experimentally.
Nothing, Naphthalene is an organic compound and can not mixed with ionic compound KI.
Organic solvents that can dissolve naphthalene include benzene, toluene, xylene, and tetrahydrofuran (THF). These solvents have a non-polar nature and are capable of breaking the intermolecular forces holding naphthalene together.
They explode because of the baking soda and vinegar mixed in and when there together BOOM.
Naphthalene and potassium sulfate can be separated through a process called recrystallization. Since naphthalene is soluble in organic solvents like ethanol or acetone but potassium sulfate is soluble in water, one can dissolve the mixture in a suitable solvent. Afterward, the solution can be filtered to remove the insoluble potassium sulfate, and naphthalene can be recovered by evaporating the solvent. Alternatively, differences in melting points could also be exploited, as naphthalene has a melting point of about 80°C, while potassium sulfate remains solid at that temperature.
Mixing is a physical process not a property.
When naphthalene and glycerin are mixed, naphthalene, a solid hydrocarbon, does not dissolve well in glycerin, which is a polar liquid. Instead, the naphthalene may float on top or form a separate layer, as it is less dense than glycerin. Additionally, the two substances do not chemically react, so the mixture remains physically distinct without forming a new compound. The result is a heterogeneous mixture with naphthalene crystals suspended in the glycerin.
gasoline combined with air will explode, gasoline won't burn without air the fumes mixed with air will explode but the gasolin will burn
it will explode
When acetone is mixed with oxygen, it can potentially increase the risk of fire or explosion due to its flammable nature. Proper precautions should be taken when handling acetone in the presence of oxygen, to avoid any accidents. It is important to store acetone in a well-ventilated area away from any potential sources of ignition.
When acetone, which is a strong solvent, is mixed with oil, they generally do not mix well due to the differences in their chemical properties. The acetone may dissolve some of the oil, causing it to break down or separate into layers. It's important to note that mixing acetone and oil can be hazardous, as acetone is highly flammable and volatile.