Not so much. As alcohols get bigger they tend to be less and less soluble in water. Methanol, ethanol, and propanol are pretty much fully miscible in water at room temperature. By the time you get to 1-butanol, the difficulty in jamming the non-polar end of the molecule between water molecules that want to interact with each other starts to make the molecule only partially soluble (somewhere around 7-8 grams per 100 mL of water). 1-pentanol is even worse, with a solubility coming in around 2-3 grams per 100 mL.
In general, the solubility of most solids in water increases as the temperature increases. This is because higher temperatures provide more energy for the solvent molecules to interact with and break down the solid particles, allowing more of the solid to dissolve in the water. However, there are exceptions where the solubility of certain solids may decrease with increasing temperature, depending on the specific substances involved.
Several factors affect the solubility of a substance in water, including temperature, pressure, the polarity of the substance and water molecules, and the presence of any other solutes in the solution. Generally, the solubility of most substances increases with higher temperature but can vary depending on the specific chemical properties of the substances involved.
Solubility is a physical property because it is related to a physical, not a chemical, change. When something dissolves, it does not change chemically. It is still the same compound/molecule, etc. when it was not dissolved in the solvent.
No, the solubility of salts can vary based on their chemical composition and structure. Factors such as temperature, pressure, and the presence of other substances can also influence the solubility of salts.
Radium sulfate (formula RaSO4) will dissolve at 0.00021 g/100g of water. To determine this: Get the solubility product constant Ksp of the values. This will indicate how much solid gets dissolve in the solution. Also consider the effect on solubility (for example, common ions).
In general, the solubility of most solids in water increases as the temperature increases. This is because higher temperatures provide more energy for the solvent molecules to interact with and break down the solid particles, allowing more of the solid to dissolve in the water. However, there are exceptions where the solubility of certain solids may decrease with increasing temperature, depending on the specific substances involved.
These solubilities are practically similar at 25 0C: 35,54 g/100 g water for KCl and 35,95 g/100g water for NaCl.
If the volume of the water is decreased while the volume of the gas remains constant, the solubility of the gas will decrease. This is because a decrease in water volume leads to a decrease in the available space for the gas molecules to dissolve in, resulting in reduced solubility.
2-mercaptobenzimidazole has limited solubility in water, but it is more soluble in organic solvents such as ethanol, methanol, and acetone. Its solubility can vary depending on the specific conditions such as temperature and pH.
Definitely not! Gases such as HCl that ionize in water are far more soluble than noble gases.
Nothing. Solubility depends of temperature and pressure, not surface area. At the same temperature and pressure C02 has the same solubility, whether you have 10 cm square surface area or 1000 cm2. Maybe you meant the rate of diffusion?
The solubility of solids like KNO3 generally increases as the temperature of water rises. This is because heating water provides more energy to break the bonds between the solute particles, allowing more solute to dissolve.
I need more detail and info. I am doing a science fair project on this subject. thank you Solubility of baking soda (NaHCO3) in water at 20 0C: 10 g/100 mL Solubility of salt (NaCl) in water at 20 0C: 36 g/100 mL Solubility of sugar (C12H22O11) in water at 20 0C: 200 g/100 mL The solubility of any material in water or in another solvent is a constant; the solubility is strictly dependent on the temperature. The speed of dissolution depends on the temperature, stirring and the physical form of the material.
no. solubility properties of both kind of soaps are same.
no all the salts have different solubility depending upon their extent of ionization
Calcium sulfate is more water soluble than strontium sulfate. In water, calcium sulfate has a solubility of about 0.2 g per 100 mL at room temperature, whereas strontium sulfate has a solubility of about 0.006 g per 100 mL at the same temperature.
Saturation and solubility is the same. They both meant to point out the maximum of solute dissolved through out the solvent.