Answer: Bond order of is 0.5.. Bond order: Click within the blue boxe. of antibonding So in order of stability you have; F2+,F2.So,F2+>F2.. Furthermore, what is the electron configuration of f2? The graphical representation presented in Figure 1 shows that bond-order gradually increases to 1 in the range (0-2) electrons then falls to zero in the range (2-4) electrons then it further rises to 1 for (4-6) electrons and once again falls to zero for (6-8) electrons then again rises to 3 in the range (8-14) electrons and … I hope you would understand it. Answer: F2 the following: (sigma 2s)^2. Due to small size of oxygen, it has greater electron electron repulsions Get your answers by asking now. What is the predicted bond order for the molecular ion F2+ according to molecular orbital theory? If you mean Li2 with a +1 charge, YES. Ask Question + 100. C) all electrons in the MO electron configuration of F2 are paired. For the best answers, search on this site https://shorturl.im/dDDpZ. Still have questions? Arrange the following in decreasing order of bond dissociation enthalpy Cl 2 > Br 2 > F 2 > I 2 . iii. ( Simple Explanation) Question: What Charge Would Be Needed On F2 To Generate An Ion With A Bond Order Of 2. ½ c. 1 d. 1 ½ e. 2 Construct the molecular orbital diagram for H 2- a What charge would be needed on F 2 to. of bonding electrons - no. Cheers! Bi does not form pπ-pπ bonds as its atomic orbitals are large and diffuse so effective overlapping is not possible. Answer to Construct the molecular orbital diagram for He2 and then identify the bond order. The bond order is 1/2(no. (sigma 2s*)^2. You can decrease the bond order of a molecule like F2 or B2 by adding 1 electron to the neutral molecule. Click to see full answer. The bond order of F2 is 1. A) the bond order in F2 can be shown to be equal to 1. Hence, the Bond order is = (2-1) which gives as the answer. ( Simple Explanation) This problem has … F2 (2+) - ion would have max bond energy as nuclear charge is effecting on less electrons. 0 0. B) there are more electrons in the bonding orbitals than in the antibonding orbitals. F2 (2-) - ion would have least bond energy - as longer bond length due to it's size. So, the bond order for and are which is 0.5. is number of anti-bonding molecular orbital electrons, which is 1 for. Herein, what is the bond order for the f2 molecule? Solution: What is the bond order of He2+? ii. a. 0 b. What Charge Would Be Needed On F2 To Generate An Ion With A Bond Order Of 2. Bond Lengths & Energies Forces and Liquid Structure Interionic and Intermolecular Forces (Ion-Ion, Ion-Dipole, Dipole-Dipole, Dipole-Induced Dipole, Dispersion/Induced Dipole-Induced Dipole/London Forces, Hydrogen Bonding) *Liquid Structure (Viscosity, Surface Tension, Liquid Crystals, Ionic Liquids) … Explanation: Formula for Bond order is : Where is Number of Bonding molecular orbital Electrons, which is 2 for . 2has a bond order of 1 Adding an electron will add to an anti- bonding orbital and decrease the bond order to 0.5 Removing and electron will remove from an anti-bonding orbital and increase the bond order to 1.5 Therefore F 2+will have the highest bond order and strongest bond F 2-will have the weakest bond and therefore the longest bond. Would Be Needed On F2 to Generate An ion With a +1 Charge, YES less electrons all in... Explanation ) Question: what Charge Would Be Needed On F2 to Generate An ion With bond. Not possible if you mean Li2 With a +1 Charge, YES of 2 diagram! 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