How would you describe the bonding in this unusal molecule?
H3+
trihydrogen cation, is a protonated molecular hydrogen or H+3
It is steady in the interstellar medium (ISM) because of the low temperature and low thickness of interstellar space. The part that H+3 plays in the gas-stage science of the ISM is unparalleled by whatever other atomic particle. The cation is additionally the most straightforward triatomic particle, since its two electrons are the main valence electrons in the framework. It is additionally the least complex case of a three-center two-electrobond framework.
The plan of the hydrogen iotas in the particle is an equilateral triangle. The atom has a reverberation structure which speaks to a three-focus, two-electron bond. The quality of the security has been ascertained to be around 4.5 eV (104 kcal/mol). This particle is a decent case which delineates the significance of electron match delocalization which adds to the dependability of atoms.
How would you describe the bonding in this unusal molecule? H3+ I --- X 2 I...
(3) How would you describe the bonding in the SF4 molecule in terms of valence bond theory? Include the following in your answer: 4. a. Draw the Lewis structure b. State the hybrid orbitals around the central atom. c. Show the orbitals present in the ground state and the hybridized state, labeling the function of each hybridized orbital.
Describe the bonding and hybridization in NO2- i) Is there resonance in this molecule? ii) Describe the delocalized pi system between N and the outer O atoms iii) Can pi bonds be formed between lone pair p orbitals and half filled p orbitals?
Intermolecular Hydrogen Bonding For which molecule in each of the following pairs would you expect hydrogen bonding, in a sample of the pure substance, to be more significant as a contributing factor to the attractive intermolecular interactions? PH3 NH3 CH3CO2H CH3CHO CH3CO2H (CO2H)2 B(OH)3 BH3
1. The chromium-chromium bonding in a molecule uses the 3d orbitals of the chromium atoms. a. Draw the 3d orbitals of a chromium atom being sure to label the x, y and z axes. Standard convention is that the z-axis is parallel to the internuclear axis. b. Draw the MO energy diagram for an isolated [Cr2]2+ fragment (no ligands!) assuming the interactions of only the 3d orbitals. Assume that the z-axis is parallel to the internuclear axis c. Next to...
For which molecule in each of the following pairs would you expect hydrogen bonding, in a sample of the pure substance, to be more significant as a contributing factor to the attractive intermolecular interactions? a) (CH2OH)2 and CH3CH2OH (My answer: (CH2OH)2) b) CH3CHO and CH3CO2H (My answer: CH3CHO) c) H20 and NH3 (My answer: H20) d) NH3 and NH2OH (My answer: NH2OH) I've provided my original answers, which are incorrect and I'm confused as to why they're incorrect.
How many conjugated T-electrons are in T-bonding MOs of this molecule? O A. O O B.2 C. 4 D.8 Which reaction sequence would convert 1H-indene to 2-deuterioindane? O A. 1. BH3.THE 2. H2O2, OH 3. PBr3 4. Mg(s), Et20 5. D20 B. 1. DCI 2. Mg(s), Et20 3. H2O O C. 1. HCL 2. Nal 3. D20 OD. 1. D2, Pd/C 2. Cl2, hv. 3. Mg(s), Et20 4. H2O
6. What is the orbital or electronic geometry of a molecule with pairs and 2 bonding electron pairs? nonbonding electron 7. What is the molecular geometry of a molecule with 1 nonbonding electron pair and 2 bonding electron pairs? 8. Why are the valence electrons of an atom the only electrons likely to be involved in bonding to other atoms? 9. Why do representative elements tend to form bonds giving them a total of 8 valence electrons? 10. How is...
H1(2) y[n] Xn] 1 H3(2) H2(2) Figure 2: Consider the system shown in Figure 2. Suppose that Hi(z) = -1,-1 and H2(z) = 1-1,-1. Determine the impulse response h3[n] ++ H3(z) such that when x[n] = 8[n – 1], the output is y[n] = $[n – 1] +38[n – 3]. Using MATLAB, generate the signal x[n] and propagate it through the system to verify that the output y[n] is as desired.
How would you describe the molecule below? ОН HO ОН sp hybridized Cis Trans Optically active
please describe in details how you categorize them based on properties and bonding of materials Define a metal, semiconductor and an insulator. Consider the properties and bonding of each of these materials and categorize them as metals, semiconductors, or insulators: Bi, AIF3, CuZn, InP, P4, NaHCO3, CdS, SiO2 thank you
please describe in details how you categorize them based on properties and bonding of materials Define a metal, semiconductor and an insulator. Consider the properties and bonding of each of...