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REDox

REDUCTION:-addition of electron or removal of oxygen or addition of hydrogen is called reduction.

oxidation:-removal of electron,addition of oxygen and removal of hydrogen is called oxidation.

Edit : the transfer of electrons between reactants is one of the choices.

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What is involved in redox reactions


How can one determine redox reactions?

Redox reactions can be determined by looking for changes in oxidation numbers of elements involved in the reaction. Oxidation involves an increase in oxidation number, while reduction involves a decrease. If there is a change in oxidation numbers, it indicates a redox reaction.


Explain in general terms how redox reactions are involved in energy exchanges?

Redox reactions involve the transfer of electrons between species. When a substance is oxidized, it loses electrons, and when it is reduced, it gains electrons. These electron transfers are often associated with the release or absorption of energy, making redox reactions important in energy exchanges within biological systems such as cellular respiration and photosynthesis.


An important enzyme involved in the regulation of redox reactions is?

One important enzyme involved in the regulation of redox reactions is glutathione peroxidase. This enzyme helps to protect cells from oxidative damage by reducing hydrogen peroxide and organic hydroperoxides using glutathione as a cofactor.


What is the difference between NADP and NADPH in terms of their roles in cellular metabolism and redox reactions?

NADP and NADPH are both coenzymes involved in redox reactions in cellular metabolism. NADP primarily functions in anabolic reactions, such as biosynthesis, while NADPH is the reduced form of NADP and serves as a key electron carrier in these reactions. NADPH is essential for processes like fatty acid and nucleotide synthesis, while NADP is more involved in maintaining cellular redox balance.


How can one identify redox reactions?

Redox reactions can be identified by looking for changes in oxidation states of elements involved in the reaction. Oxidation involves the loss of electrons, while reduction involves the gain of electrons. If there is a change in oxidation states of elements in a chemical reaction, it is likely a redox reaction.


Where does Redox occur in bacteria?

The Redox 'Battlefield' is the Redox reactions mediated by bacteria.


Are all combustion reactions redox processes?

Yes, all combustion reactions are redox processes.


What is involved in the redox reactions?

Redox reactions, or reduction-oxidation reactions, involve the transfer of electrons between two species. During these reactions, one substance loses electrons (oxidation) and another gains electrons (reduction). This process changes the oxidation states of the involved elements, and it is essential for various biological processes, energy production, and industrial applications. The overall reaction can be represented by the combination of half-reactions for oxidation and reduction.


Why conductometric titration cannot be applied for redox reaction?

Conductometric titration measures change in conductivity, which is not directly proportional to the redox reaction progress in the solution. This is because redox reactions involve electron transfer, which does not directly affect the conductivity of the solution. Conductometric titration is more suitable for acid-base reactions or precipitation reactions where ions are involved.


What is involved in redbox reactions?

Redox reactions, or reduction-oxidation reactions, involve the transfer of electrons between two substances. In these reactions, one substance is oxidized (loses electrons) while the other is reduced (gains electrons). This electron transfer often results in a change in oxidation states of the involved elements. Additionally, redox reactions are fundamental in various processes, including energy production in batteries and metabolic pathways in living organisms.


Are single displacement and double displacement reactions always redox reactions?

No, single displacement and double displacement reactions are not always redox reactions. Redox reactions involve electron transfer between reactants, while single displacement and double displacement reactions do not always involve the transfer of electrons.