Intramolecular H-bonding is hydrogen bonding that happens within one molecule. Hydrogen bonding is a very polar bond between a hydrogen atom and a highly electronegative atom, such as N, O, or F. If the solute is placed in a polar solvent, it will be very soluble, because it itself is polar. If the solute is placed in a nonpolar solvent it will not be very soluble.
If intermolecular forces are Strong, the solubility is reduced.
In other words higher the intermolecular forces lower the solubility is.
for example compounds containing covalent bond (double or triple) are less soluble because they possess strong intermolecular forces.
yes
Solubility of a substance is affected by pressure, type of solvent, and temperature.
Yup. A solution contains a solute and a solvent. In the solution Salt Water, salt is the solute and water the solvent. Concentrated solutions are heavy on the solutes; dilute ones heavy on the solvents.
Yes, it is true.
The solvent is usually the larger part of the solution which dissolves the solute. The solute is the smaller part which gets dissolved. So as an example, seawater is a solution. The solvent is water and the solute is salt and traces of other minerals. Vinegar is also a solution. Again, water is the solvent and glacial acetic acid is the solute. To do acid values in resin chemistry, methanolic KOH solution is usually the titrant. In this example, methanol is the solvent and KOH is the solute.
Heat, pressure, type of solvent and type of solute.
Pressure, type of solvent, temperature
(1) Temperature (2) Nature of solute or solvent (3) and Pressure.
Solubility of a substance is affected by pressure, type of solvent, and temperature.
yes
1. Temperature 2. Pressure 3. type of solvent
Solubility of a substance is affected by pressure, type of solvent, and temperature.
Solution: Dextrose 5% in water for injection.Solute: DextroseSolvent: Water for injection.
When a solute is added to a solvent until no more dissolves, the solution is said to be saturated. In some cases a solution can be made to be supersaturated by temporarily increasing the solubility of the solvent, such as through an increase in temperature.
Solubility of a substance is affected by pressure, type of solvent, and temperature.
Solubility is a complex and not fully understood phenomenon.Firstly it is explained by the type of bonds in the solute (the substance that is dissolving) compared to the type of bonds in the solvent (the substance that the solute dissolves into).A polar solvent will dissolve solutes that have some polarity in the bonds or are charged in some way. Water has polar oxygen to hydrogen bonds, O-H, so it will dissolve sugar (O-H) or alcohol (O-H) or table salt (Na+ - Cl-) but not oil (no positive - negative centers). Petrol/gasoline has no polar bonds so it will dissolve oil, grease or wax.Secondly, the existing bonds in the solute have to break and form new bonds with the solute. There has to be some 'advantage' in terms of energy for the solute to dissolve.In addition, the temperature will affect solubility. It is not the case that an increase in temperature always increases solubility.Whether there are any other dissolved substances present - 'the common ion effect'.Pressure can affect solubility although this is virtually insignificant when it comes to liquids and solids.Although the terms - soluble, and insoluble are in common usage, it is all about the degree of solubility. Insoluble means that the salt is less soluble than about 1 g per 100 g of solvent. Heavy metal salts would be in this category but need to be avoided by all living things.
Yup. A solution contains a solute and a solvent. In the solution Salt Water, salt is the solute and water the solvent. Concentrated solutions are heavy on the solutes; dilute ones heavy on the solvents.