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What household chemical react with hydrogen peroxide to produce a fire?
You think probable to acetone. The acetone peroxide is an explosive.
What enzyme filled sac is found in the liver and produces hydrogen peroxide?
Peroxisomes are the enzyme-filled sacs found in the liver that produce hydrogen peroxide as a byproduct of their metabolic functions. Hydrogen peroxide is then broken down by the peroxisome's enzymes to prevent cellular damage.
Why most of the times hydrogen peroxide is prepared by using barium peroxide?
Barium peroxide is commonly used to prepare hydrogen peroxide because it readily decomposes in the presence of water, releasing oxygen gas which then reacts with hydrogen to produce hydrogen peroxide. This method provides a simple and efficient way to produce hydrogen peroxide on a small scale.
Hydrogen peroxide decomposed into simpler substances?
The hydrogen peroxide is both oxidized and reduced, to produce water and elemental oxygen.
What happen when a raw potato is mixed with hydrogen peroxide?
When a raw potato is mixed with hydrogen peroxide, the enzyme catalase in the potato helps break down the hydrogen peroxide into water and oxygen gas. This reaction produces bubbles of oxygen gas as a result of the decomposition of hydrogen peroxide.
What household chemical react with hydrogen peroxide to produce a fire?
You think probable to acetone. The acetone peroxide is an explosive.
Sodium peroxide combines with what to produce hydrogen peroxide?
Water
What enzyme filled sac is found in the liver and produces hydrogen peroxide?
Peroxisomes are the enzyme-filled sacs found in the liver that produce hydrogen peroxide as a byproduct of their metabolic functions. Hydrogen peroxide is then broken down by the peroxisome's enzymes to prevent cellular damage.
What liquid is made when liver and hydrogen peroxide mix?
When liver and hydrogen peroxide mix, they produce a liquid called hydrogen peroxide. The liver contains an enzyme called catalase, which breaks down hydrogen peroxide into water and oxygen gas.
What do Hydrogen Peroxide and yeast make?
Hydrogen peroxide and yeast can react to produce oxygen gas and water. The yeast acts as a catalyst, breaking down the hydrogen peroxide into oxygen and water.
Why most of the times hydrogen peroxide is prepared by using barium peroxide?
Barium peroxide is commonly used to prepare hydrogen peroxide because it readily decomposes in the presence of water, releasing oxygen gas which then reacts with hydrogen to produce hydrogen peroxide. This method provides a simple and efficient way to produce hydrogen peroxide on a small scale.
Mixing iron nitrate and hydrogen peroxide what gas is this?
Mixing iron nitrate and hydrogen peroxide produces oxygen gas. The reaction between iron nitrate and hydrogen peroxide results in the decomposition of hydrogen peroxide to produce oxygen gas as one of the products of the reaction.
What gas does yeast and hydrogen peroxide make?
Yeast and hydrogen peroxide produce oxygen gas as a byproduct of their reaction. The yeast acts as a catalyst to break down the hydrogen peroxide into water and oxygen.
Hydrogen peroxide decomposed into simpler substances?
The hydrogen peroxide is both oxidized and reduced, to produce water and elemental oxygen.
Which of the following substances does not produce oxygen gas through decomposition: water, hydrogen peroxide, or potassium chlorate?
Water does not produce oxygen gas through decomposition. Hydrogen peroxide and potassium chlorate do produce oxygen gas when they decompose.
Does hydrogen peroxide blow up in water?
No. Hydrogen peroxide is usually dissolved in water to make it more stable. The peroxide you buy at the pharmacy is 3% hydrogen peroxide and 97% water. Pure hydrogen peroxide, which is a dangerously strong oxidizer, can explosively decompose into water and oxygen.
What happen when a raw potato is mixed with hydrogen peroxide?
When a raw potato is mixed with hydrogen peroxide, the enzyme catalase in the potato helps break down the hydrogen peroxide into water and oxygen gas. This reaction produces bubbles of oxygen gas as a result of the decomposition of hydrogen peroxide.
