In Sodium Chloride, Sodium ion (Na+) and Chloride ion (Cl-) are combined by ionic forces,Where as in Iodine Molecule Two Iodine atoms are combined by covalent bond.Covalent bond is always stronger than ionic Bond.So in water the weak bond (Ionic Bond) dissociates easily and Nacl Dissolves Readily compared to Iodine.
NO iodine can not dissolve in water but it can dissolve in benzene
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.
The solution is saturated because it contains the maximum amount of solute (NaCl) that can dissolve in the given amount of solvent (water) at that temperature of 20°C. If more NaCl were added, it would not dissolve in the solution.
Iodine is more soluble in kerosene than water because iodine is a nonpolar molecule, which is more attracted to the nonpolar molecules in kerosene than the polar molecules in water. This leads to stronger intermolecular forces between iodine and kerosene, allowing iodine to dissolve more readily in kerosene than in water.
OK so a compound such as sodium chloride dissolves in water because water molecules can orient themselves according to a charge of the particle Na+ and Cl- so that ions are pulled apart from one another and they dissolve. This can also happen the other way around when water is evaporated the less water there is the more closer the ions are.
NO iodine can not dissolve in water but it can dissolve in benzene
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.
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.
The solution is saturated because it contains the maximum amount of solute (NaCl) that can dissolve in the given amount of solvent (water) at that temperature of 20°C. If more NaCl were added, it would not dissolve in the solution.
Iodine is more soluble in kerosene than water because iodine is a nonpolar molecule, which is more attracted to the nonpolar molecules in kerosene than the polar molecules in water. This leads to stronger intermolecular forces between iodine and kerosene, allowing iodine to dissolve more readily in kerosene than in water.
Iodine is more soluble in mineral oil than in water. This is because iodine is a nonpolar molecule, and mineral oil is also nonpolar, allowing for better solvation. In contrast, water is a polar solvent, which does not effectively dissolve nonpolar substances like iodine. Thus, iodine's solubility is significantly higher in mineral oil.
The NaCl does not dissolve completely in the soap solution because the solution is saturated, meaning it has reached its maximum capacity to dissolve more NaCl. Any additional NaCl added will not dissolve and will remain as a solid in the solution.
OK so a compound such as sodium chloride dissolves in water because water molecules can orient themselves according to a charge of the particle Na+ and Cl- so that ions are pulled apart from one another and they dissolve. This can also happen the other way around when water is evaporated the less water there is the more closer the ions are.
For dissolving any solute the solvation energy of the solvent has to be more than the lattige energy of the solute. In this case the lattice energy of Nacl[salt] is more than that of sugar. Hence it takes more time to dissolve in water. ---- Akashraj Ghosh.
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.
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.
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.