when all of the hydrogen peroxide disappears what will or will not happened
H2o2 or hydrozen peroxide forms a bubbly substance when breakdown into oxygen and water molecule.
hydrogen peroxide forms as a product of metabolism and can do some dangerous things as it can break to form hydroxyl radicals that can attack important biochemicals like proteins and DNA.
To protect itself the body makes catalase, the enzyme that decomposes hydrogen peroxide before it can form hydroxyl radicals.
So in the absence of h2o2 this thing will not happen but
If h202 will not present than body will be in danger of more heavy substance body produces h2o2 to protect itself from superoxide which are more heavy.
So its a important part because when superoxides present then body uses ezymes to degrade superoxide into hydrogen peroxide but it is also dangerous but less and hence catalase comes and degrades it too.
These procedure will not happen it h202 will disappear so body will safe with bit danger but will also be in big danger.
Its a balance that is made naturally and can disturb everything it is important also and harmful too.
H202 is also used as antiseptic in minor wounds where it degrades into h20 and oxygen making it heal and heme part of blood is present..
So in absence of h202 this will also not happen
when all of the hydrogen peroxide disappears what will or will not happened
Write the balanced equation for the decomposition of hydrogen peroxide (H2O2). Explain what happened in the graduated cylinder that pushed the H2O out.
Hydrogen peroxide is made by white blood cells to destroy harmful bacteria. When hydrogen peroxide decomposes, it forms molecular oxygen and water. 2 H2O2(aq) ⟶ O2(g) + 2 H2O(g) Suppose O2 is being formed at a rate of 0.65 M/min. At what rate (M/min) is the concentration of hydrogen peroxide changing? Enter your answer to 2 decimal places.
5. When using hydrogen peroxide to induce vomiting, the dosage is for hydrogen peroxide is A. 1 tsp. (5 mL)/1 lb. of body weight. B. 2 tsp. (10 mL)/1 lb. of body weight. C. 1 tsp. (5 mL)/5 lbs. of body weight. D. 3 tsp. (15 mL)/5 lbs. of body weight.
5. When using hydrogen peroxide to induce vomiting in pets, the dosage for hydrogen peroxide is A. 1 tsp. (5 mL)/1 lb. of body weight. B. 2 tsp. (10 mL)/1 lb. of body weight. C. 1 tsp. (5 mL)/5 lbs. of body weight. D. 3 tsp. (15 mL)/5 lbs. of body weight.
The hydrogen peroxide used in this experiment Is 3% hydrogen peroxide by mass, and has a density of 1.00g/mL. Use this info to determine the concentration in molarity of the 3% hydrogen peroxide
why is yeast the best catalyst for the decimposition of
hydrogen peroxide ?
Hydrogen Peroxide Only (Control) No reaction Hydrogen Peroxide + Activated Carbon Slow gas evolution Hydrogen Peroxide + Manganese Dioxide Gas evolution Hydrogen Peroxide + Yeast 0 min Rapid gas evolution 2 min 4 min 6 min No reaction No reaction No reaction No gas evolution No gas evolution No gas evolution
What is produced when hydrogen peroxide reacts with catalase enzyme If the enzyme causes the breakdown of a substrate the reaction is example of a)anabolism b) parabolism c) catabolism d) complexity Lemon juice stops the browning of potato by Lowering the ph b) increasing the ph c( neutralizing the ph
When propylene reacts with hydrogen bromide in the presence of a peroxide initiator, which of the following structures are formed during the Br
when flavoprotein transfers electrons directly to oxygen, hydrogen peroxide is produced. what other consequences might result from electron carriers in the ETC being bypassed?
A buffer solution contains 0.69 mol of hydrogen peroxide (HOOH) and 0.39 mol of sodium hydrogen peroxide (NaOOH) in 6.60 L. The Ka of hydrogen peroxide (HOOH) is Ka = 2.4e-12. (a) What is the pH of this buffer? pH = (b) What is the pH of the buffer after the addition of 0.61 mol of NaOH? (assume no volume change) pH = (c) What is the pH of the original buffer after the addition of 0.13 mol of HI?...