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What are the effects of isotonic solution on human blood cells?

An isotonic solution is defined as having the same 'osmotic pressure', or concentration, of some material, especially salts and minerals. They often help to rehydrate the body from the effects of excess sweating.


What are some examples of hypotonic isotonic and hypertonic?

If there is 99.1% water (0.9% NaCl) inside the cell and 99.5% water (0.5% NaCl) outside the cell, the water goes from where it is highest (99.1) to where it is lowest (99.5). This is the concept of osmosis, or the diffusion of water across a semi-permeable membrane. Diffusion always occurs from a high to a lowconcentration of molecules as they are moving due to their kinetic energy (energy of motion).


What are some examples of what would be membrane-enclosed organelles in a eukaryotic cell?

Examples of membrane-enclosed organelles in a eukaryotic cell include the nucleus, mitochondria, endoplasmic reticulum, Golgi apparatus, lysosomes, and peroxisomes. These organelles have specialized functions and are surrounded by a lipid bilayer membrane that separates their internal environment from the rest of the cell.


What solution will cause hemolysis?

Hemolysis is the bursting of red blood cells (hemo- blood and lysis- bursting). There are three types of solutions that blood can be put into: hypertonic, hypotonic and isotonic. The names of these give you some clue as to how the cell will behave in solution. Hypertonic solutions have greater osmotic pressure than the cells they contain, which will cause the cell to shrivel as its contents diffuse into the solution. Hypotonic solutions have less osmotic pressure than the cells inside of them, so the contents of solution will diffuse across the cell membrane and into the cell, eventually causing it to swell and burst (hemolysis). Isotonic solutions have osmotic pressure equal to that of the solutes they contain, so no net change is observed.


Some plant cell are put in water they neither take nor loose water what can you say about the strength of cell sap and external solution?

If the plant cells neither gain nor lose water when placed in water, it indicates that the concentrations of solutes inside and outside the cell are balanced, resulting in an isotonic environment. This suggests that the strength of the cell sap and the external solution are equal, as there is no net movement of water across the cell membrane.

Related Questions

What is isotonic?

Isotonic refers to a solution that has the same concentration of solutes as another solution. In biology, an isotonic solution has the same osmotic pressure as the cytoplasm of a cell, allowing for a balance in movement of water across the cell membrane. This prevents the cell from shrinking or swelling due to osmotic pressure differences.


What are 5 types of solutions?

There are many different types of solutions. Some examples of different solutions are isotonic solutions, hypertonic solutions and hypotonic solutions.


What are the effects of isotonic solution on human blood cells?

An isotonic solution is defined as having the same 'osmotic pressure', or concentration, of some material, especially salts and minerals. They often help to rehydrate the body from the effects of excess sweating.


What is isotanic?

Having equal tension. Pertains to a muscular contraction in which the muscle remains to be in a relatively constant tension while its length changes, as in isotonic muscle. Isosmotic, i.e. having the same or equal osmotic pressure and same water potential since the two solutions have an equal concentration of water molecules. Mahesh. Pertaining to a solution that has the same tonicity as some other solution with which it is compared. For example, blood serum is isotonic to a physiologic salt solution. Solutions that have same tonicity will result in no net flow of water across the cell membrane.


What is an isotonic solution used for?

An IV solution should be isotonic to the blood so that the injected solution does not disrupt the fluid balance in the patient. If the solution is hypertonic, the patient may become dehydrated as the solution pulls water out of the patient's body tissues and into the blood stream. This can also cause severe problems with high blood pressure, as the blood volume can increase dramatically from this. If the solution is hypotonic, the patient may become edematous as the solution diffuses into the patient's body tissues. This can also cause severe problems with dependent edema and electrolyte loss. However, in some cases a doctor will deliberately choose a hypertonic or hypotonic solution for IV injection in certain medical emergencies.


What are some examples of hypotonic isotonic and hypertonic?

If there is 99.1% water (0.9% NaCl) inside the cell and 99.5% water (0.5% NaCl) outside the cell, the water goes from where it is highest (99.1) to where it is lowest (99.5). This is the concept of osmosis, or the diffusion of water across a semi-permeable membrane. Diffusion always occurs from a high to a lowconcentration of molecules as they are moving due to their kinetic energy (energy of motion).


What is the difference between isotonic hypotonic and hypertonic solution?

The words isotonic, hypertonic, and hypotonic refer to the relationship between two solutions. - When two solutions are isotonic to one another, the two solutions have the same amount of solute as each other. - When a solution is hypertonic in reference to another solution, that solution has more solute than the other. - When a solution is hypotonic in reference to another solution, that solution has less solute than the other. - Thus, on a scale of INCREASING solutes, you could align three solutions like this: hypotonic --> isotonic --> hypertonic. Secondly, since substances move from a region of high concentration (more solute) to low concentration (less solute), remember that solutes will always move from a hypertonic solution to a hypotonic solution OR solvents will always move from a hypotonic solution to a hypertonic solution. A good way to remember this is to know that "hyper" means above (more than) and hypo means "below" (less than), e.g. in HYPERactive = being really energetic or more energetic than normal vs. HYPOthermia = being very cold or below the normal temperature. A way to figure out whether a solution is isotonic, hypertonic, or hypotonic in respect to another solution is to figure out the solutions tonacities. Tonacity is the measure of solute in a solution. Therefore, something hypertonic has more tonacity or more solute than another solution. Some people learn the term "solute potential," which has a similar concept to tonacity. Examples: A 0.4 mol glucose solution is isotonic to a 0.4 mol glucose solution. A 0.4 mol glucose solution is hypertonic to a 0.2 mol glucose solution. A 0.2 mol glucose solution is hypotonic to a 0.4 mol glucose solution.


What are some examples of contact lens solution?

OPTI-FREE, Biotrue, Saline solution.


Which organelles developed nuclear membrane?

The nuclear membrane, as the name suggests, is the membrane around the nucleus. If you meant to ask which other organelles are membrane bound, then there are a few. Some examples are mitochondria and chloroplasts.


Is saltwater a basic solution And if not what are some examples of basic solutions?

baking soda, ammonia, and saltwater are three examples of basic solution's, although we are slowly making the sea acidic =[


What are some examples of what would be membrane-enclosed organelles in a eukaryotic cell?

Examples of membrane-enclosed organelles in a eukaryotic cell include the nucleus, mitochondria, endoplasmic reticulum, Golgi apparatus, lysosomes, and peroxisomes. These organelles have specialized functions and are surrounded by a lipid bilayer membrane that separates their internal environment from the rest of the cell.


What are some examples of a gaz gaz solution?

Some are smoke,air,farts,pollution