You cannot, the highest you can buy is around 35%. At around 90% it is used as rocket fuel and is highly flammable plus after 40% it becomes a very strong acid and will burn through your flesh and other materials. Also, the fumes are highly toxic.
1 part of hydrogen peroxide out of 30% hydrogenperoxide bottle add 10 parts of distilled water
The formula is H2O2 so in pure hydrogen peroxide it would be 50 mole %. As the molecular weight is 34 it would be 2/34 x 100 = 5.9 weight % (1 decimal place).
It means that the concentration of the peroxide is such that for every 1mL of hydrogen peroxide solution, 100mL of oxygen will be produced if fully reduced, catalyzed, exposed to light, heated or decomposed in any manner to the fullest extent. The fullest extent means the end point where every molecule of hydrogen peroxide releases one oxygen atom, and is converted into water.
To prepare 3% hydrogen peroxide from 30% hydrogen peroxide, you need to dilute the 30% solution with water. The formula to calculate the dilution is C1V1 = C2V2, where C1 is the initial concentration (30%), V1 is the volume of the initial solution, C2 is the final concentration (3%), and V2 is the final volume of the solution you want to prepare. By plugging in the values, you can determine the volume of 30% hydrogen peroxide needed and the volume of water needed to achieve a 3% solution.
Oh, dude, preparing 0.2 M hydrogen peroxide is like making lemonade, but with a bit more chemistry. You just take the concentrated hydrogen peroxide solution and dilute it with water until you reach a concentration of 0.2 M. It's not rocket science, just mix and measure, like following a recipe for a boring science experiment.
To dilute 100 vol hydrogen peroxide to make a 6% solution, you would mix 1 part 100 vol hydrogen peroxide with approximately 16 parts of water (since 100 vol is approximately 30% hydrogen peroxide). This dilution will result in a 6% hydrogen peroxide solution.
To dilute 12 percent hydrogen peroxide to 6 percent, mix equal parts of the 12 percent solution with an equal volume of water. For example, if you start with 100 mL of 12 percent peroxide, you would add 100 mL of water, resulting in a total volume of 200 mL at 6 percent concentration. Always ensure to handle hydrogen peroxide safely, using appropriate protective equipment.
1 part of hydrogen peroxide out of 30% hydrogenperoxide bottle add 10 parts of distilled water
The formula is H2O2 so in pure hydrogen peroxide it would be 50 mole %. As the molecular weight is 34 it would be 2/34 x 100 = 5.9 weight % (1 decimal place).
The mass percent of hydrogen in hydrogen peroxide (H2O2) is 5.88%. This is calculated by taking the total mass of hydrogen in one molecule of H2O2 (2.01 g) divided by the total molar mass of H2O2 (34.02 g/mol) and multiplying by 100.
It means that the concentration of the peroxide is such that for every 1mL of hydrogen peroxide solution, 100mL of oxygen will be produced if fully reduced, catalyzed, exposed to light, heated or decomposed in any manner to the fullest extent. The fullest extent means the end point where every molecule of hydrogen peroxide releases one oxygen atom, and is converted into water.
To prepare 3% hydrogen peroxide from 30% hydrogen peroxide, you need to dilute the 30% solution with water. The formula to calculate the dilution is C1V1 = C2V2, where C1 is the initial concentration (30%), V1 is the volume of the initial solution, C2 is the final concentration (3%), and V2 is the final volume of the solution you want to prepare. By plugging in the values, you can determine the volume of 30% hydrogen peroxide needed and the volume of water needed to achieve a 3% solution.
Oh, dude, preparing 0.2 M hydrogen peroxide is like making lemonade, but with a bit more chemistry. You just take the concentrated hydrogen peroxide solution and dilute it with water until you reach a concentration of 0.2 M. It's not rocket science, just mix and measure, like following a recipe for a boring science experiment.
The strength of a solution may be described as a percentage or volume, where 1% hydrogen peroxide releases 3.3 volumes of oxygen during decomposition.Thus, a 3% solution is equivalent to 10 volume and a 6% solution to 20 volume, etc. Answer taken from Wikipedia 19/01/2009
Typically, hydrogen peroxide concentrations of 100-1000 μM are used to induce oxidative stress in animal cell lines. This translates to roughly 0.003% to 0.03% hydrogen peroxide. However, the optimal concentration may vary depending on the specific cell line and experimental conditions.
9/100 = 12 / (100 +x) so 0.09 (100+x) = 12 so 9 +0.09x =12 therefore 0.09x = 12-9 and thus x = 3/0.09 = 33.334 So to 100g of 12% peroxide would need to add 33.34 g water. To put another way to every 3 parts peroxide add 1 part water. Ratio of 3:1 peroxide:water
Yes, It will Melt the treebark and it will prevent toenail infection or toenail fungus. Also rinse with 25/100 hydrogen and 75/100 to whiten teeth