isotonic solution comprise non-penetrating solute and they are solution having the same osmotic pressure as the cell they surround. they are neither absorbed or do they absorb anything from the cell.
Iso-osmotic solutions are comprise penetrating and non-penetrating solutes .although they have the same osmotic pressure as the cell they surround ,they comprise penetrating solute ,which can enter the cell and increase the cell's osmotic pressure .increasing the cell's osmotic pressure,make the cell prone to absorb water from the medium in order to equalize the osmotic pressure on both sides,and this cause bursting of the cell.
Isosmotic solutions have the same concentration of solutes, while isotonic solutions have the same concentration of solutes and the same osmotic pressure.
Isotonic solutions have the same concentration of solutes as the cells, while hypertonic solutions have a higher concentration of solutes than the cells.
Isotonic concentration refers to a solution that has the same concentration of solutes as another solution, resulting in no net movement of water across a semipermeable membrane. This creates a state of equilibrium between the two solutions, maintaining cell volume and preventing osmotic effects.
In chemistry, a normal solution is based on the equivalent weight of a substance, while a molar solution is based on the molarity of a substance. The main difference is in how the concentration of the solution is measured and expressed.
A solute is a substance that is dissolved in a solution. A solution is a mixture of a solute and a solvent, where the solute is evenly distributed throughout the solvent.
Isosmotic solutions have the same concentration of solutes, while isotonic solutions have the same concentration of solutes and the same osmotic pressure.
It is not true that an object will swell in an isotonic solution because there is no different concentration gradient between the object and the isotonic solution
Nothing. There would be no gradient between the cell and the solution.
An isotonic solution refers to a solution where the concentration of solutes is the same inside and outside of a cell, leading to no net movement of water across the cell membrane. Equilibrium, on the other hand, refers to a state where there is a balance between opposing forces, resulting in a steady state with no net change. In the context of a cell, equilibrium can refer to the balance of ions or molecules inside and outside the cell.
Isotonic solution is a solution in which the concentration of solutes is essentially equal to that of cytosol of the cell placed in that solution. There is no net osmotic pressure on a membrane placed between 2 isotonic solutions.
To make a hypotonic solution isotonic, you would need to add solutes (such as salts or sugars) to increase the concentration of the solution. This additional solute will balance the osmotic pressure between the solution and the cells, making it isotonic. Be sure to measure the concentration carefully to avoid creating a hypertonic solution.
Isotonic refers to a solution that has the same concentration of solutes as another solution, resulting in no net flow of water across a cell membrane. In a biological context, an isotonic solution helps maintain cell shape and volume by preventing excessive water movement.
What is the difference between normal saline solution and ringer's lactate solution?
Isotonic solutions have the same concentration of solutes as the cells, while hypertonic solutions have a higher concentration of solutes than the cells.
Normal saline is an example of an isotonic fluid. It contains 0.9% salt in water.An isotonic solution is a solution that contains the same concentration of solutes (dissolved particles) as blood. Isotonic saline is an example. Isotonic saline is a solution with the same concentration of salts as human blood.
An Isotonic muscle contraction is a muscle contraction that makes your limbs move whereas an Isometric contraction is a muscle contraction where the limbs stay static
Isotonic concentration refers to a solution that has the same concentration of solutes as another solution, resulting in no net movement of water across a semipermeable membrane. This creates a state of equilibrium between the two solutions, maintaining cell volume and preventing osmotic effects.