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.
You can find it in a brown bottle in the drug store.
you can't. you don't want to make a bomb anyway- you'll put your eye out!
Try in a chemical store.
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).
30% of weight by volume(w/v) hydrogen peroxide or 100 volume strength hydrogen peroxide is perhydrol.
Lets say you want an end volume of 500 ml of 3% peroxide. But you dont know how much 30% peroxide to use. Concentration1 X Volume1 = Concentration2 X Volume2 30/100 X unknown ml = 3/100 X 500 ml unknown ml = 50 ml 50ml of 30% added to pure 450 ml of water = 500 ml 3 % peroxide. · 3 years ago
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 make 35 percent, we have to add 35 ml of H2O2 to 100 ml beaker and add 65 ml distilled water.(Hint:- 1 percent means 1ml in 100ml beaker i.e 1ml H202+99 ML WATER. Thanks Rahulprasanthi patibandla.
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).
30% of weight by volume(w/v) hydrogen peroxide or 100 volume strength hydrogen peroxide is perhydrol.
Lets say you want an end volume of 500 ml of 3% peroxide. But you dont know how much 30% peroxide to use. Concentration1 X Volume1 = Concentration2 X Volume2 30/100 X unknown ml = 3/100 X 500 ml unknown ml = 50 ml 50ml of 30% added to pure 450 ml of water = 500 ml 3 % peroxide. · 3 years ago
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.
Pure hydrogen peroxide certainly can cause chemical burns if it touches your skin. Hydrogen peroxide you buy from a drugstore is typically about 3% hydrogen peroxide and 97% water. As far as your skin is concerned, as long as you're not actually bathing in it it's not all that different from 100% water. You should be careful with even the dilute stuff around your eyes and mouth though; the mucous membranes are much more sensitive.
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
Hydrogen and helium make up nearly 100 percent of the matter of the universe. Hydrogen comprises about 75 percent and helium makes up about 25 percent.
For carbon 0.80 x 100 = 80 grams of carbon; and for hydrogen 0.20 x 100 = 20 grams of hydrogen
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
To make 35 percent, we have to add 35 ml of H2O2 to 100 ml beaker and add 65 ml distilled water.(Hint:- 1 percent means 1ml in 100ml beaker i.e 1ml H202+99 ML WATER. Thanks Rahulprasanthi patibandla.
lets see. H20 you have 2.016 grams of hydrogen here to 16.0 grams oxygen 2.016/16.0 X 100 = 12.6% hydrogen by mass H2O2 you have the same 2.016 grams hydrogen here, but you have 32.0 grams oxygen in this molecule 2.016/32.0 X 100 = 6.3% so H2O has the higher percent by mass of hydrogen
The experiment goes like this: Take 3 vials and fill them with different concentrations of hydrogen peroxide, namely, 100% 75% 50%. Compare them to a vial of 100% water. Take a piece of paper soaked in yeast (the paper must all be the same size, with the same amount of yeast-soaking time) and push it to the bottom of the vial. The paper will gradually make its way to the top. The question is, which concentration allows for yeast-paper to rise the quickest? The answer is 100% hydrogen peroxide. This experiment relates to Rate of Reaction, or, how fast it takes the reactants of a chemical equation to become the product of the chemical equation. Basically, how fast they react.