the geometry of the methane molecule, CH4, could be square planar, with the four hydrogen atoms...

the geometry of the methane molecule, CH4, could be square planar, with the four hydrogen atoms at the corners of a flat square and the carbon atom at the center. sketch this geometry and compare its stability with that of a tetrahedral ch4 molecule. explain why methane has the structure it does

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queen_honey_blossom answered 2 years ago

Suppose that methane (CH4) is square planar instead of tetrahedral. Determine the characters of the H...

Suppose that methane (CH4) is square planar instead of tetrahedral. Determine the characters of the H 1s orbitals and use the projection operator method to determine the SALCs. Draw an interaction diagram. Explain why methane is not square planar.

Draw sigma only molecular orbital diagram for CH4 assuming square planar geometry.

Methane reacts with chlorine to produce methyl chloride and hydrogen chloride. CH4 + Cl2 → CH3Cl...

Methane reacts with chlorine to produce methyl chloride and hydrogen chloride. CH4 + Cl2 → CH3Cl + HCl Once formed, methyl chloride can be chlorinated in subsequent reactions to form methylene chloride (CH2Cl2), chloroform (CHCl3) and carbon tetrachloride (CCl4). In a methyl chloride production process a reactor is fed with methane and chlorine in a molar ratio of 5: 1 (methane: chlorine). In the process the chlorine is consumed in its entirety. The selectivity observed in the process is 4...

In the ammonia (NH3) molecule of the figure, three hydrogen (H) atoms form an equilateral triangle,...

In the ammonia (NH3) molecule of the figure, three hydrogen (H) atoms form an equilateral triangle, with the center of the triangle at distance d = 9.40 × 10x^–11 m from each hydrogen atom. The nitrogen (N) atom is at the apex of a pyramid, with the three hydrogen atoms forming the base. The nitrogen-to-hydrogen atomic mass ratio is 13.9, and the nitrogen-to-hydrogen distance is L = 10.14 × 1x^0–11 m. What are the (a) x and (b) y coordinates...

- The molecules methane (CH4) and ammonia both have four regions of high electron desnity around...

- The molecules methane (CH4) and ammonia both have four regions of high electron desnity around their central atoms, and yet these two molecules have different molecular geometries. Why are their molecule geometries different? -Which of the following molecules is (are) polar? Which of the following is (are) non polar molecules that contain polar bonds? which contain nonpolar bonds?Carbon dioxide, carbon tetrafluoride, molecular chlorine, carbon monoxide, CH2O?

A set of four group orbitals derived from four 3s atomic orbitals in necessary to examine the bonding in [PtCl4]-, a square planar complex

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A hydrogen bond could form between: 1. A partially negative nitrogen from one molecule and the...

A hydrogen bond could form between: 1. A partially negative nitrogen from one molecule and the hydrogen of a water molecule 2. The hydrogens of two methane molecules. 3. A calcium cation and the hydrogen of a water molecule. 4. The oxygen of one water molecule and the oxygen of another water molecule Please select the correct one

In a DNA molecule, the base pair adenine and thymine is held together by two hydrogen bonds (see Fig. 16.5). Let’s model one of these hydrogen bonds as four point charges

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The negative part of the addendum (the molecule to be added) adds on the carbon atom of the double bond containing the least number of hydrogen atoms. This rule is known as (a) Saytzeffs rule (b) Peroxide rule (c) Markovnikov’s rule (d) van’t hoff rule

The negative part of the addendum (the molecule to be added) adds on the carbon atom of the double bond containing the least number of hydrogen atoms. This rule is known as____________.(a) Saytzeffs rule(b) Peroxide rule(c) Markovnikov’s rule(d) van’t hoff rule

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