Which among the following have bond order 2.5?
A. `O_2`
B. `N_2^(2-)`
C. `N_2^+`
D. `O_2^+`
Correct Answer - C (A) `O_(2)`,B.O=2 (B) `F_(2)`, B.O=1 (C) `O_(2)^(+)`B.O=2.5 (D) `F_(2)^(-)` B.O=0.5
2 Answers 1 viewsCorrect Answer - A More is bond order, shorter will be the bond length `("B.O."prop 1/(B.L.))`
2 Answers 2 viewsCorrect Answer - B Increasing bond order is `O_2^(2-) (1.0) lt O_2^(-) (1.5) lt O_2(2.00) lt O_2^(+) (2.5)`
2 Answers 1 viewsCorrect Answer - A,B B.O. of `Ar_2=(N_a-N_a)/2 =(18-18)/2=0` B.O. of `F_2^(2-)=(N_b-N_a)/2 =(10-10)/2=0`
2 Answers 1 viewsCorrect Answer - B Due to delocalisation of `pi` electrons `C_(2)-C_(3)` bond acquired double bond character.
2 Answers 1 views(i) In `PCl_(5)` molecule, P atom is present in higher oxidation state `(+5)` than in `PCl_(3)` molecule in which P atom is in `(+3)` oxidation state. Therefore, `PCl_(5)` is more...
2 Answers 1 viewsCorrect Answer - D Si-O bond is stronger than Si-Si bond and `p pi-d pi` bonding between silicon atoms is not possible due to its larger size.
2 Answers 1 viewsCorrect Answer - C In the nickel carbonyl , there is a synergic bonding interaction between NI and CO. As a result, there is an increase in the strength of Ni-CO...
2 Answers 1 viewsCorrect Answer - `B.E_((C=C))=112 Kcal//mol` `CH_2=CH_2(g)+3O_2(g)to2CO_2(g)+2H_2O(l)` `:.-330=[2xx(94.2)+2(-61)]-[DeltaH_f^@C_2H_4]:.DeltaH_f^@(C_2H_4)=19.6 Kcal mol^(-1)` `:. 2C(s)+2H_2(g)toCH_2=CH_2(g),DeltaH_f=19.6` `because DeltaH_("Reaction")=2DeltaH_("atm" ( C))+4DeltaH_("atm"(H))-4B.E._((C=C))` 19.6=2x150+4x51.5-4x93.6-`B.E._((C=C))` `B.E._((C=C))=112` Kcal/mol
2 Answers 1 viewsCorrect Answer - B (a)`N_2=sigma1s^2 sigma^**1s^2 sigma2s^2 sigma^**2s^2 pi2p_x^2 =pi2p_y^2 sigma2p_z^2` B.O.`=(10-4)/2=3` , n=0(D) `N_2^(+)=sigma1s^2 sigma^(**)1s^2 sigma2s^2 sigma^** 2s^2 sigma^** 2s^2 pi2p_x^2 = pi 2p_y^2 sigma2p_z^1` B.O.=`(9-4)/2=2.5` , n=1(P) (b)`O_2^+=sigma1s^2 sigma^**1s^2...
2 Answers 1 views