The chemiosmotic coupling hypothesis of oxidative phosporylaion process that adenosine triphoshate (ATP) is formed because

Flow of electrons in ETS is NADH + H^+ (NADPH +H^+) to FMN FeS" protein "CoQto cytb toc_1tocytctocya atocyaa_3too'' .At three steps ATP is formed (oxidative phosphorylation). Where does II ATP is formed?

Formation of ATP in photosynthesis and respiration in an oxidation process which utilises the energy from:-

The synthesis of ATP in photosynthesis and respiration is essentially an oxidation-reduction process involving removal of energy from

One molecule of glucose requires 2 ATP to get phosphorylated to form Fructose 1--6 Biphosphate in glycolysis. How many ATP are used in the same process if the substrate is fructose ?

During which stage in the complete oxidation of glucose are the greatest number of ATP molecules formed from ADP Or Largest amount of phosphate bond energy is produced in the process of respiration during 1. Electron transport chain 2. Glycolysis 3. Krebs's cycle 4. Oxidation of pyruvic acid

Alkali metals on combustion in excess of air form different type of oxides depending on the size of metal cations e.g . lithium forms mainly the oxide Li_2O , sodium forms peroxide and some super oxides NaO_2 and potassium, Rubidium and caesium form the superoxides, MO_2 . The stability of peroxide and superoxide increases, as the size of the metal cation increases because of the stabilisation of larger anion by larger cations through lattice energy effect. These oxides are easily hydrolysed by water. The oxides and the peroxides are colourless when pure, but the superoxides are yellow or orange in colour. Peroxide and superoxide of sodium and potassium are widely used as oxidising agent and as air purifier in space capsules, submarines and breathing mask. When sodium reacts with excess of oxygen at 350^@ C , the oxidation number of oxygen per atom changes from:

Alkali metals on combustion in excess of air form different type of oxides depending on the size of metal cations e.g . lithium forms mainly the oxide Li_2O , sodium forms peroxide and some super oxides NaO_2 and potassium, Rubidium and caesium form the superoxides, MO_2 . The stability of peroxide and superoxide increases, as the size of the metal cation increases because of the stabilisation of larger anion by larger cations through lattice energy effect. These oxides are easily hydrolysed by water. The oxides and the peroxides are colourless when pure, but the superoxides are yellow or orange in colour. Peroxide and superoxide of sodium and potassium are widely used as oxidising agent and as air purifier in space capsules, submarines and breathing mask. Which of the following compound is used in the emergency breathing apparatus ?

The formation of the oxide ion O^(2-)(g) , form oxygen atom requires first an exothermic and then an endothermic step as shown below, O(g)+e^(-) to O^(-)(g),DeltaH_(f)^(0)=-141kJ*mol^(-1) O^(-)(g)+e^(-) to O^(2-)(g),DeltaH_(f)^(0)=+780kJ*mol^(-1) ltbr. Thus, process of formations of O^(2-) in gas phase is unfavourable even through O^(2-) is isoelectronic with neon. it is due to the fact that-

ATP molecules formed on complete oxidation of 40 moles of glucose

A black compound of Mn reacts with a halogen acid to form a greenish yellow gas. When NH_(3) reacts with excess of that gas, an unstable trihalide is obtained. The change of oxidation state of nitrogen in this process is -