6. Z-Hydrazone The correct structure of the product A formed in the reaction (4) H.CO 10. The oxidation of b of air produces (1) Benzoic acid (3) Benzoic anh A Blgas, 1 atmosphere) Pd carbon ethanol 11. Treatment of [NEET-(Phase-2)-2016) is methyl lithium OH vo (1) OH (1) Cyclopen 27 Cycloper (3) Cyclope (4) Cyclope OH (3) Aakash Educational Services Limited - Regd. Office : Aakash Tower, 8, Pusa R

The rate constant for the reaction: CO_(2) + overset(ɵ)(OH) rarr HCO_(3)^(ɵ) in the aqueous solution is 4 xx 10^(-3) L mol^(-1) s^(-1) . The number of mole per volume of CO_(2) and overset(ɵ)(OH) are 10^(-6) and 10^(-1) mol L^(-1) . Also predict the mole of HCO_(3)^(ɵ) formed per second.

Comprehension # 8 A factory, producing methanol, is based on the reaction: CO+2H_(2)hArrCH_(3)OH Hydrogen & carbon monoxide are obtained by the reaction CH_(4)+H_(2)OhArrCO+3H_(2) Three units of factory namely, the "reformer" for the H_(2) and CO production, the "methanol reactor" for production of methanol and a "separator" to separate CH_(3)OH from CO and H_(2) are schematically shown in figure. four positions are indicated as alpha,beta,gamma and delta . The flow of methanol at position gamma is 10^(3)mol//sec . The factory is so designed that (2)/(3) of the CO is converted to CH_(3)OH . Excess of CO and H_(2) at position delta are used to heat the first reaction. Assume that the reformer reaction goes to completion. At the position (beta) mole ratio of CO to H_(2) is (1)/(3) CO+2H_(2)hArrCH_(3)OH " "DeltaH_(r)=-100 R Amount of energy released in methanol reactor in 1 minute ?

The final product formed in the reaction C_(6)H_(5)C-=CHunderset(HgSO_(4))overset(H_(2)SO_(4))rarrA overset(NH_(2)OH)rarr B underset(2H_(3)O+)overset(1.LiAIH_(4))rarrC is .

Comprehension # 8 A factory, producing methanol, is based on the reaction: CO+2H_(2)hArrCH_(3)OH Hydrogen & carbon monoxide are obtained by the reaction CH_(4)+H_(2)OhArrCO+3H_(2) Three units of factory namely, the "reformer" for the H_(2) and CO production, the "methanol reactor" for production of methanol and a "separator" to separate CH_(3)OH from CO and H_(2) are schematically shown in figure. four positions are indicated as alpha,beta,gamma and delta . The flow of methanol at position gamma is 10^(3)mol//sec . The factory is so designed that (2)/(3) of the CO is converted to CH_(3)OH . Excess of CO and H_(2) at position delta are used to heat the first reaction. Assume that the reformer reaction goes to completion. At the position (beta) mole ratio of CO to H_(2) is (1)/(3) CO+2H_(2)hArrCH_(3)OH " "DeltaH_(r)=-100 R What is the flow of CO and H_(2) at postion (gamma) ?

Comprehension # 8 A factory, producing methanol, is based on the reaction: CO+2H_(2)hArrCH_(3)OH Hydrogen & carbon monoxide are obtained by the reaction CH_(4)+H_(2)OhArrCO+3H_(2) Three units of factory namely, the "reformer" for the H_(2) and CO production, the "methanol reactor" for production of methanol and a "separator" to separate CH_(3)OH from CO and H_(2) are schematically shown in figure. four positions are indicated as alpha,beta,gamma and delta . The flow of methanol at position gamma is 10^(3)mol//sec . The factory is so designed that (2)/(3) of the CO is converted to CH_(3)OH . Excess of CO and H_(2) at position delta are used to heat the first reaction. Assume that the reformer reaction goes to completion. At the position (beta) mole ratio of CO to H_(2) is (1)/(3) CO+2H_(2)hArrCH_(3)OH " "DeltaH_(r)=-100 R What is the flow of CO and H_(2) at position (beta) ?

The rate constant for the reaction: CO_(2) + overset(ɵ)(OH) rarr HCO_(3)^(ɵ) in the aqueous solution is 4 xx 10^(-3) L mol^(-1) s^(-1) . Calculate the number of mole of CO_(2) and overset(ɵ)(OH) are 10^(-6) and 10^(-1) mol L^(-1) . Also predict the mole of HCO_(3)^(ɵ) formed per second.