Open a bottle up at room temp and take a whiff, you smell that, so did I!
Answer Room temp.
Hydrogen peroxide is a strong oxidizing agent and can react with certain types of plastics, particularly those that contain certain additives or stabilizers. This reaction can lead to the breakdown of the plastic material, causing it to become brittle or discolored. It is important to be cautious when using hydrogen peroxide near plastics and to avoid prolonged contact to prevent damage.
Yes. It will speed up the bleaching process if you are trying to lighten your skin. But do not cake the hydrocortisone onto the spot after the peroxide is applied because it will cause the skin to become raw and rub off easily. Literally losing the top layer of your skin.
Hydrogen peroxide can be used in diluted form as a natural fungicide for plants. It can help control fungal diseases and oxygenate the soil, but it should be used in moderation as it can also harm beneficial microbes in the soil if overused. It's important to follow proper dilution instructions and not use it excessively.
Hydrogen peroxide doesnt clean anything, it only forces oxygen into the wound, which is the fizzy , bubbly white stuff is, and it kinds loosens the tissue so needle can be used to pop puss bubbles and everything
Hydrogen is a colorless, odorless gas at room temperature. It can become a liquid or solid at very low temperatures. Hydrogen is the lightest element and is highly flammable.
No, water and hydrogen peroxide are not the same. Water is composed of two hydrogen atoms and one oxygen atom (H2O), while hydrogen peroxide has an additional oxygen atom (H2O2) which gives it different chemical properties, including oxidizing abilities.
The concentration of hydrogen peroxide affects the activity of catalase by influencing the rate at which catalase breaks down hydrogen peroxide into water and oxygen. Higher concentrations of hydrogen peroxide can increase the rate of catalase activity up to a certain point, beyond which the enzyme may become saturated and its activity may plateau or decrease.
Hydrogen peroxide is a bleaching agent. Over time teeth become stained from food products such as coffee and tea. Hydrogen peroxide releases oxygen into the enamel. This creates a bond that changes the way teeth reflect light and makes the teeth appear whiter.
Water would become hydrogen peroxide (H2O2) if an extra oxygen atom is added to it. Hydrogen peroxide is a chemical compound with an additional oxygen atom compared to water, which changes its properties and reactivity.
Hydrogen peroxide is a strong oxidizing agent and can react with certain types of plastics, particularly those that contain certain additives or stabilizers. This reaction can lead to the breakdown of the plastic material, causing it to become brittle or discolored. It is important to be cautious when using hydrogen peroxide near plastics and to avoid prolonged contact to prevent damage.
Heating a dilute solution of hydrogen peroxide strongly can lead to rapid decomposition of the hydrogen peroxide into water and oxygen gas. This decomposition reaction is exothermic and can become uncontrollable, resulting in a dangerous buildup of pressure and potential explosion.
i dont think so that hf is volatile though it looks like that is volatile due to lesss atomic mass but there is strong hydrogen bondig present ion it which makes it enough stable to become volatile while ihcl should be more volatile than these mentioned chemicals
I just heard today that the main ingredient in Oxyiclean is hydrogen peroxide. But can hydrogen peroxide become a powder?
all of the above ! depending on he temperature . Pure H2O2 (not the solutions) melts at just under zero degerees- and boils at 150 C
No. The peroxide should be new and fresh each time you soak to prevent contamination of the site. The peroxide especially when used on the feet would collect too many germs for it to be sanitary to be used again.
The boiling point of ethanol is 78,37 0C, but ethanol is volatile also at very low temperatures, for ex. at 0 0C.
Hydrogen gas become a liquid at very low temperature; and after we can obtain solid hydrogen.