Wiki User
∙ 8y ago0.67
Wiki User
∙ 8y agoThe total moles of solute and solvent in the solution is 9.0 mol. The mole fraction of methanol would be the moles of methanol divided by the total moles. Therefore, the mole fraction of methanol in the solution is 6.0 mol / 9.0 mol = 0.67.
Yes, methanol can be part of an aqueous solution. Methanol is soluble in water, so it can form a homogeneous mixture when mixed with water.
Methanol is miscible with water, which means it can mix in any proportion. When methanol is added to water, it forms a homogenous solution due to hydrogen bonding interactions between the methanol and water molecules. This allows methanol to dissolve easily in water.
Methanol can help increase the solubility of certain compounds compared to water alone. Testing conductivity in a mixture of methanol and water can help determine the presence of ions or charged particles in the solution, as both methanol and water can facilitate the movement of ions and enhance conductivity.
Yes, it is possible to make a saturated solution of water and alcohol. This solution contains the maximum amount of solute that can dissolve in a solvent at a given temperature. The solubility of alcohol in water depends on the type of alcohol and the temperature.
Methanol does not dissociate into ions when dissolved in water, making it a nonconducting solution. Acetic acid, on the other hand, partially dissociates into ions in water, forming H+ ions which conduct electricity and contribute to the solution's acidity.
Yes, methanol can be part of an aqueous solution. Methanol is soluble in water, so it can form a homogeneous mixture when mixed with water.
Methanol is miscible with water, which means it can mix in any proportion. When methanol is added to water, it forms a homogenous solution due to hydrogen bonding interactions between the methanol and water molecules. This allows methanol to dissolve easily in water.
With 25ml methanol and 75ml water, there is 100ml in total. So there is 25/100 = 25% by volume methanol.
Methanol is a nonconducting solution because it does not dissociate into ions when dissolved in water. In order for a solution to conduct electricity, it must have free-moving ions that carry the electric current, which methanol lacks.
The final percent concentration of the solution would be approximately 12.0% methanol. This is calculated by dividing the volume of methanol by the total volume of the solution (600 ml / 5000 ml) and then multiplying by 100 to get the percentage.
Methanol can help increase the solubility of certain compounds compared to water alone. Testing conductivity in a mixture of methanol and water can help determine the presence of ions or charged particles in the solution, as both methanol and water can facilitate the movement of ions and enhance conductivity.
To make a 100 ppm solution of methanol in 100 mL of water, you would need 10 mg of methanol. This is because 100 ppm is equivalent to 100 mg/L, and since you have 100 mL of water, you would need 10 mg of methanol (100 mg/L x 0.1 L).
Yes, it is possible to make a saturated solution of water and alcohol. This solution contains the maximum amount of solute that can dissolve in a solvent at a given temperature. The solubility of alcohol in water depends on the type of alcohol and the temperature.
Yes, because Methanol contains an OH bond. This is why when 50 millilitres of each only make 95mils or so.
Methanol does not dissociate into ions when dissolved in water, making it a nonconducting solution. Acetic acid, on the other hand, partially dissociates into ions in water, forming H+ ions which conduct electricity and contribute to the solution's acidity.
Yes, mixing water and methanol can result in a hazy liquid. This cloudiness is due to the difference in polarity and miscibility of the two substances. Methanol is miscible with water but their different polarities can lead to temporary cloudiness as they mix.
Depends on the solvent. If it is unsaturated water, yes. Unsaturated methanol, no.