A reaction with alkyl halides in NaI with acetone is by the Sn2 mechanism. The rate for an Sn2 mechanism is directly proportional to the concentration of the nucleophile:
rate = k[nucleophile][alkylhalide]
If the iodine solution (the nucleophile) is half as concentrated, then the rate will also be halved.
rate = k [nucleophile]/2 [alkyl halide]
If the KOH is in a moderately concentrated aqueous solution, the net reaction can be: 2 Al + 6 H2O => 2 Al(OH)3 + 3 H2. In this instance, the KOH does not undergo any net reaction; instead it catalyzes the reaction between aluminum and water by preventing the solid aluminum from maintaining a passivation layer on its surface. If the KOH is in a still more concentrated aqueous solution, the reaction can be: 2 Al + 4 KOH => K2Al2O4 + H2.
Concentrated. concentrated solutions is completely ionized. The colligative property that is boiling-point states that it will increase as the number of particles increases. Diluting a concentrated substance lessens the number of particles making it obviously lower in bp
The 0.5M solution has a lower concentration of NaCl compared to the 2.0M solution. This means the 2.0M solution has more NaCl dissolved in the same volume of water. Consequently, the 2.0M solution will be more concentrated and have a higher osmolarity compared to the 0.5M solution.
To make a 6 N solution of ammonium hydroxide, you would mix the appropriate amount of concentrated ammonium hydroxide solution with water to achieve the desired concentration. The specific volumes of each component would depend on the concentration of the concentrated solution you are starting with. It is important to handle ammonium hydroxide with caution due to its caustic nature.
The boiling point of a concentrated aqueous solution of sodium chloride is higher than that of pure water. This is due to the presence of the solute, which raises the boiling point of the solution through a process called boiling point elevation. The exact boiling point will depend on the concentration of the sodium chloride in the solution.
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 really concentrated solution would undergo a reaction quiet dramatically. the colour of the solution would be darker
exothermic
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Concentrated
the world will blow up
Concentrated solution. (High density solution) Supersaturated solution if amount of solute is greater than its solubility in the solvent at the given temperature.
No, a concentrated solution has a high amount of solute dissolved in a solvent. In the case of water and sugar, the concentration of sugar would need to be higher in order for the solution to be considered concentrated.