Why
100 ml solution of KOH3 can not hold more than 37gm of KNO3 in dissolved state
due to the rate of solubility....
No. Water is not solution but it is a compound. A solution a substance in which another substance is dissolved. Or an intimate mixture of two substances. Generally considered to be in the liquid state, but not necessarily so.
Salts in solid form will not conduct electricity as the ions cannot be in motion. However when salts are dissolved in aqueous medium (to form solution), they will conduct electricity. Also salts conduct electricity in molten (or fused) state.
'Aq' in chemistry is an abbreviation of the word 'Aqueous' meaning dissolved in solution. The opposite of aqueous is 'Anhydrous' meaning not in solution. Example | You can dissolve anhydrous citric acid into a beaker of distilled water, which would make an aqueous solution of citric acid.
Ionic compounds conduct electricity in molten state (melted) or when dissolved in a solution. Covalent compounds do not conduct electricity. Period.
Liquid is a state of matter (liquid, solid, gas, plasma).A solution is a homogeneous mixture of particles in a liquid form (HCl, NaCl dissolved in water until the water is saturated or supersaturated, ect).A water molecule contains one oxygen and two hydrogen atoms that are connected by covalent bonds.
it becomes a solution
potassium nitrate solubility at room temperature 25 degree celsius is about 383 g /L.if we want per 100 ml then .... 383 g / 1000ml ....we know that1 L=1000mlnow for per 100 ml it becomes38.3g/100mlnow we can see that KNO3 solubility in 100 ml solution is 38.3 g.....so we can say that100 ml solution of KNO3 can not hold more than 37 g or 38.3 g of KNO3 in dissolved state.
If a product is dissolved in water it is known to be aqueous.
When a solid is dissolved in a liquid, the liquid is said to be the solvent and the solid is to be the solute. The liquid that you get after dissolving the solid into the liquid is called the solution. When a solute dissolves, the solvent particles attract the particles of the solute away which breaks the cluster of particles apart. After dissolving enough amount that the solvent cannot dissolve more, the solution is said to be saturated. It is the state when the solution cannot dissolve anymore solute. The opposite of solution is suspension. A suspension is when the solute cannot be dissolved (that is, it is insoluble) into the solvent and stays suspended in the solvent. A suspension is translucent and the suspended particles can be easily seen. While, in a solution, the particles are soluble and complete dissolve into the solvent. A solution is transparent and the particles are too small to be seen through naked eyes.
The physical state that cannot exist in a solution is solid. This can be either liquid or gaseous states but not in solid form.
Don't really know.....you should ask someone
solidity
No. Water is not solution but it is a compound. A solution a substance in which another substance is dissolved. Or an intimate mixture of two substances. Generally considered to be in the liquid state, but not necessarily so.
When molten or dissolved in water it can but in its standard, solid state it cannot.
A solution that is not able to absorb any more solute or solvent
Cake batter is not a solution because the solids in the mixture are not completely dissolved in the liquids. Solutions have to be in the same state of matter and completely homogeneous.
Firstly, a mixture of sugar and water is known as a solution. A solution is a solute completely dissolved in a solvent. A solute is a compound (can be in any state) which can be dissolved in a solvent(which also can be in any state). The resulting mixture is known as a solution. A solution must be a homogeneous mixture in one phase only. This means that both the solute and solvent must be in the same state. In this example, sugar is in the aqueous state which water is in the liquid state, which makes them essentially in the same phase. Sugar, in this case, is dissolved into water to form sugar water. Hence, sugar is is the solute.