isotonic
If a cell is placed in an isotonic solution, there will be no net movement of water across the cell membrane. The concentration of solutes inside and outside the cell will be equal, so the cell will maintain its normal shape and size as there is no osmotic pressure acting on it.
The low concentration can be 'a particular thing is present in low quantity'.... same way how low concentration of salt in water means low quantity of salt in water.....it is used in biology......for hypertonic solution, isotonic solution, hypotonic solution..........
The particles are bigger in a suspension, and the solute is not dissolved in the solvent but is dissolved in a solution suspension example- sand in water, sand is the solute and water is the solvent solution example- sugar in water, sugar is the solute and water is the solvent
Saline solution is used in silt tests to help separate fine particles of silt from coarser particles. The solution helps to break down the silt and keep it suspended in water, enabling the particles to settle at different rates, aiding in the determination of the silt content and particle size distribution in the soil sample.
A concentrated solution may be used even if there's no reaction with the dilute solution because it can save time and resources by requiring less volume for the same amount of substance. Additionally, using a concentrated solution can provide a higher concentration of the desired compound, which may be necessary for specific applications or experiments.
isotonic
A saturated solution is considered a type of solution. It occurs when the maximum amount of solute has dissolved in a solvent, resulting in a dynamic equilibrium where solute particles continue to dissolve and precipitate at equal rates.
A solution which has a lesser concentration of particles is said to be dilute.
a high amount of solute relative to the amount of solvent. This results in a high concentration of solute particles in the solution, making it more potent or intense compared to a diluted solution.
In order to compare the molality of two solutions, you need to consider the number of particles the solute separates into in a solution. Urea (CH4N2O) separates into one particle in solution, while NaCl separates into two particles. Therefore, 1 molal urea solution is equal to 0.5 molal NaCl solution because NaCl produces twice as many particles in solution as urea.
No, the mole of solution is not equal to the mole of solute plus the mole of solvent. The mole of solution refers to the total amount of moles in a given volume of solution, which includes both the solute and the solvent.
In a solution, the particles are evenly distributed throughout the solvent. These particles can be molecules, ions, or atoms that are in a homogeneous mixture with the solvent. The size of the particles in a solution is typically smaller than those in a suspension or colloid.
A mole of solute refers to the amount of solute that contains Avogadro's number of particles, which is approximately 6.022 x 10^23 particles. This quantity is used in chemistry to measure and calculate the amount of solute in a solution.
A solution is considered saturated when it contains the maximum amount of solute that can dissolve in a solvent at a given temperature. Mathematically, one can determine if a solution is saturated by comparing the amount of solute present in the solution to the solubility limit of that solute in the solvent at that temperature. If the amount of solute in the solution is equal to or greater than the solubility limit, then the solution is saturated.
No, a solution has much smaller particles than a colloid. In a solution the particles are individual atoms, molecules, or ions.
Concentrated solution. (High density solution) Supersaturated solution if amount of solute is greater than its solubility in the solvent at the given temperature.
a colloid has smaller particles than a solution