When a palisade cell is placed in a dilute glucose solution, water will move into the cell by osmosis, causing the cell to swell and possibly burst if the solution is too hypotonic. This process is due to the higher concentration of water outside the cell compared to inside, leading to water moving down its concentration gradient into the cell.
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.
A dilute solution is a liquid consisting of a chemical of interest to which has been added water or another solvent to create a mixture in which the chemical of interest is present at much lower concentration than before. Adding more water to a drink is an example of diluting the drink. When so much water is added that the drink tastes really weak, then you have a dilute solution of the drink.
To dilute primers for PCR effectively, mix the primer solution with a buffer solution in the appropriate ratio. Typically, a 10x dilution is used, meaning 1 part primer solution is mixed with 9 parts buffer solution. This helps ensure that the primers are at the optimal concentration for PCR amplification.
To dilute primers effectively for your experiment, you can use a buffer solution such as Tris-EDTA (TE) or nuclease-free water. Calculate the desired concentration of the primer and then mix the primer with the buffer solution to achieve the desired dilution. Make sure to vortex or mix the solution gently to ensure proper dilution.
The cytoplasm is more concentrated, not dilute, compared to the surrounding solution inside or outside the cell. This is due to the presence of various solutes, such as ions and proteins, that contribute to the osmolarity of the cytoplasm. This difference in concentration helps maintain cell volume and shape through osmotic processes.
In a very dilute solution of glucose
To dilute a 25% glucose and glutamic acid solution, you would mix the solution with an appropriate amount of water. The exact amount of water needed will depend on the desired final concentration of the solution. Calculate the amount of water needed based on the volume and concentration of the original solution.
this emans to water it down, or add water...
The enzyme amylase in the saliva broke the starch down into glucose.
As you dilute an acidic solution, the concentration of hydrogen ions (H+) decreases, resulting in a higher pH. The solution becomes less acidic as the proportion of acid molecules compared to water molecules decreases.
The dilute solution become a concentrated solution.
A solution that only contains a small amount of solute, is a dilute or very dilute solution.
The quantity of the solvent is increased to dilute a solution.
A solution that has only a little solute is called a dilute solution. In a dilute solution, the concentration of the solute is low compared to the solvent. The amount of solute in the solution is relatively small.
Ammonium Hydroxide is available as a dilute solution - yes.
Dilute
The boiling point of a solution can vary depending on the concentration of solute. For a dilute solution of glucose in water, the boiling point elevation is typically small and may not be easily measurable. However, pure glucose itself does not have a defined boiling point as it decomposes upon heating.