chemical make-up, In detail, The chemical reaction of the kerosene upon the iodine, It "shakes hands" and bonds with and therefore is more interactive allowing fluid reply.
I would suspect iodine to be more soluble in alcohol than kerosene because iodine is a polar compound and so it alcohol. Kerosene is non polar. Now should you mix them? Don't think so! Iodine is a strong oxidizer and can react with the alcohol or the kerosene. This may likely cause a fire or explosion if conditions where right.
Water is a poor solvent for the recrystallization of iodine because iodine is only slightly soluble in water. As a nonpolar solvent, water cannot effectively dissolve the polar iodine molecules, resulting in low solubility and poor recrystallization efficiency. Other solvents, such as ethanol or acetone, are more suitable for recrystallizing iodine due to their ability to dissolve iodine more effectively.
Iodine is more soluble in carbon disulfide than in water. It has a higher solubility in non-polar solvents like carbon disulfide due to its non-polar nature and the ability to form weak van der Waals interactions with the solvent molecules.
The I2 molecules in iodine are not very soluble in water because they are not alike. I2 is non-polar whereas H2O is polar. But KI solution contains I- ions which combine with the I2 molecules to form I3- ions because these are charged they dissolve in the water which is a polar solvent.
The I2 molecules in iodine are not very soluble in water because they are not alike. I2 is non-polar whereas H2O is polar. But KI solution contains I- ions which combine with the I2 molecules to form I3- ions because these are charged they dissolve in the water which is a polar solvent. by tarun das
I would suspect iodine to be more soluble in alcohol than kerosene because iodine is a polar compound and so it alcohol. Kerosene is non polar. Now should you mix them? Don't think so! Iodine is a strong oxidizer and can react with the alcohol or the kerosene. This may likely cause a fire or explosion if conditions where right.
Iodine is not soluble in water because iodine is nonpolar and water is polar. According to the "Like dissolve like" expression, nonpolar substances are soluble with nonpolar substances and polar substances are soluble with polar substances, but nonpolar substances are not soluble with polar substances.
Copper chloride is more soluble in water compared to iodine. This is because copper chloride is an ionic compound that dissociates into ions in water, while iodine is a nonpolar molecule that does not readily dissolve in water.
Water as its most commonly found in salt Not water...
Water is a poor solvent for the recrystallization of iodine because iodine is only slightly soluble in water. As a nonpolar solvent, water cannot effectively dissolve the polar iodine molecules, resulting in low solubility and poor recrystallization efficiency. Other solvents, such as ethanol or acetone, are more suitable for recrystallizing iodine due to their ability to dissolve iodine more effectively.
For Iodine in Chloroform & water, the distribution ratio is 250; hence at equilibrium, the iodine concentration in the chloroform phase is 250 times then in the water phase.
Iodine is much more soluble in ethanol than in water, so it will usually form a homogeneous mixture. Of course, if you add more solid iodine than will dissolve in your quantity of ethanol at the temperature at which you are working, the excess solid will sink to the bottom. In that case, you have a heterogeneous mixture.
Water and wax do not go together. Think of the reason why people wax their cars. If the car gets wet the wax allows the water to form droplets and slide off. The wax and the water do not mix. Another way to think of it is floating candles. If the wax dissolved in the water then it wouldn't be a floating candle anymore. So my guess is that it is more soluble in kerosene.
Iodine is more soluble in carbon disulfide than in water. It has a higher solubility in non-polar solvents like carbon disulfide due to its non-polar nature and the ability to form weak van der Waals interactions with the solvent molecules.
Common solutes that can dissolve in kerosene include oil-based substances such as grease, wax, and certain organic compounds. Inorganic salts and polar molecules, which are more water-soluble, do not dissolve well in kerosene due to its nonpolar nature.
It sounds like you're describing Lugol's iodine. It's not technically "required," it's just that's what the recipe is. Actually, in Lugol's iodine, KI is needed to improve the dissolution of iodine in water.
To enhance the solubility of iodine in water, you can increase the temperature of the water as iodine is more soluble in hot water. Stirring or agitating the solution can also help by increasing the surface area and facilitating the contact between iodine and water molecules. Additionally, adding a solubility-enhancing agent like potassium iodide can significantly increase the solubility of iodine in water.