a non volatile solute will not evaporate
A non-polar solute like sulfur can be effectively dissolved in non-polar solvents. Common examples include hydrocarbons such as hexane, heptane, or benzene. These solvents have similar non-polar characteristics, allowing them to interact favorably with sulfur and facilitate its dissolution.
The nature of a solute refers to its chemical and physical properties, such as polarity, molecular size, and solubility. These characteristics determine how well a solute dissolves in a solvent, influencing factors like temperature and pressure. For example, polar solutes tend to dissolve well in polar solvents, while non-polar solutes are more compatible with non-polar solvents. Understanding the nature of a solute is essential for applications in chemistry, biology, and environmental science.
The frezzing point is lowered.
2 solutions cannot be isotonic when the cell membrane is non-permeable to the solute inside the cell. The solution outside the cell has to be fresh water 0% solute and 100% water
A non-isotonic solution is one that has a different solute concentration compared to another solution, typically referring to the comparison with intracellular fluid in biological contexts. In a non-isotonic solution, cells may either swell (if the solution is hypotonic, having a lower solute concentration) or shrink (if the solution is hypertonic, having a higher solute concentration) due to the movement of water across the cell membrane. This osmotic pressure difference can affect cell function and integrity.
The Hard Disk installed in your computer is static and non volitile
Its a store device and it is non volatile memory
what is the effect of the addition of a non volatile solute to the boiling point of water?
the non polar solute gets dissolved as non polar solutes tend to dissolve in non polar solvents than in polar solvents. for eg: benzene(non polar solute) gets dissolved in carbon tetrachloride which is a non polar solvent but not in water because it is a polar solvent.
The Hard Disk installed in your computer is static and non volitile
volatile will evaporate
A dissolved solute that does not form ions is considered non-electrolyte. Non-electrolytes do not dissociate into ions when dissolved in a solvent. Examples of non-electrolytes include sugar, ethanol, and urea.
A polar solute is expected to be soluble in a non-polar solvent. This is because "like dissolves like" – polar molecules tend to dissolve in polar solvents, and non-polar molecules dissolve in non-polar solvents.
a polar solvent dissolves a non polar solute
The opposite of a colligative property is a non-colligative property. Non-colligative properties are characteristics of a substance that do not depend on the number of solute particles present but instead rely on the nature of the solute or solvent itself. Examples include color, taste, and chemical reactivity.
A non-polar solute like sulfur can be effectively dissolved in non-polar solvents. Common examples include hydrocarbons such as hexane, heptane, or benzene. These solvents have similar non-polar characteristics, allowing them to interact favorably with sulfur and facilitate its dissolution.
"Like dissolves like" This is simply stating that a solute will dissolve best in a solvent that has a similar polarity to itself. For example, a very polar (hydrophilic) solute such as NaCl is very soluble in highly polar water and and practically insoluble in non-polar solvents such as benzene. However, a non-polar (lipophilic) solute such as carbon dioxide is insoluble in water and highly soluble in non-polar benzene. For a non-polar solute such as carbon dioxide to become more soluble in water, the pressure of the system would have to be increased. This is why most sodas are under 5 atmospheres of pressure.