Study the reaction given below
`CO_(2)+H_(2)O underset("EnZyme")hArr H_(2)CO_(3)`
In absence of any enzyme this reaction is very slow, with 200 molecules of `H_(2)CO_(3)` being formed in an hour. In presence of enzyme the reaction speeds up dramatically with about 6000,000 molecules formed every second. Name the enzyme which has accelerated up the reaction by 10 million times.

CO_2+ H_2O leftrightarrow H_2CO_3 In the absence of an enzyme, this above reaction is

What is the reaction given below, called ? H_(2)O_((l)) + H_(2)O_((l)) hArr H_(3)O_((aq))^(+) + OH_((aq))^(-)

The reaction, C_(6)H_(5)ONa +CO_(2)+H_(2)O rarr C_(6)H_(5)OH+NaHCO_(3) suggests that :

The enzyme that increases the reaction rate between CO_(2) and H_(2)O in red blood cell is

For the reaction KO_(2)+H_(2)O+CO_(2)rarrKHCO_(3)+O_(2) , the mechanism of reaction suggest.

Refer to the given reactin. {:(C_(12)H_(22)O_(11)+H_(2)O overset(Enzyme A)to 2C_(6)H_(12)O_(6)),("Maltose"" ""Glucose"):} Enzyme A used in the reaction, belongs to which class of enzymes ?

Cartain materials such as turpentine oil, unsaturated organic compound, phosophorus, metals such as Zn , and Pb , etc., can absorb O_(2) from air in the presence of H_(2)O , which is converted to absorb O_(2) from air in the presence of H_(2)O , which is converted to H_(2)O_(2) . This is called autoxidation. Intermolecular redox reactions are those in which one molecule is oxidised and the other is reduced. Intramolecular redox reactions are those in which oen atom of a molecule is oxidised and the other atom is reduced. Which of the following statements about the reaction is // are correct? 2AsCl_(4)^(ө)+3Znrarr2Au+3Zn^(2+)+8Cl^(ө)

The following reaction takes place in the body CO_(2)+H_(2)OhArrH_(2)CO_(3)hArrH^(+)+HCO_(3)^(-) . If CO_(2) escapes from the system

The following reaction takes place in the body CO_(2)+H_(2)OhArrH_(2)CO_(3)hArrH^(+)+HCO_(3)^(-) . If CO_(2) escapes from the system

At 527^(@)C , the reaction given below has K_(c)=4 NH_(3)(g)hArr(1)/(2)N_(2)(g)+(3)/(2)H_(2)(g) what is the K_(p) for the reaction ? N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g)