(a)
Interpretation:
Chair conformations of given compound should be drawn and most stable conformer is needed to be predicted between them and stable conformation at equilibrium also needed to be find.
Concept introduction:
Chair conformer: chair conformer is a stable conformer for cyclohexane compound. In this chair conformer two positions are important for substitutions one is equatorial and other one axial position. Axial positions are parallel to the axis of ring while equatorial positions are perpendicular to the axis of the ring.
Example:
After ring flip of the conformer, axial position becomes equatorial and equatorial position becomes axial.
Stereochemistry conversions in chair conformation are shown below.
| Substituent position | cis | trans |
| 1,2 position | (a,e) or (e,a) | (a,a) or (e,e) |
| 1,3 position | (a,a) or (e,e) | (a,e) or (e,a) |
| 1,4 position | (a,e) or (e,a) | (a,a) or (e,e) |
(b)
Interpretation:
Chair conformations of given compound should be drawn and most stable conformer is needed to be predicted between them and stable conformation at equilibrium also needed to be find.
Concept introduction:
Chair conformer: chair conformer is a stable conformer for cyclohexane compound. In this chair conformer two positions are important for substitutions one is equatorial and other one axial position. Axial positions are parallel to the axis of ring while equatorial positions are perpendicular to the axis of the ring.
Example:
After ring flip of the conformer, axial position becomes equatorial and equatorial position becomes axial.
Stereochemistry conversions in chair conformation are shown below.
| Substituent position | cis | trans |
| 1,2 position | (a,e) or (e,a) | (a,a) or (e,e) |
| 1,3 position | (a,a) or (e,e) | (a,e) or (e,a) |
| 1,4 position | (a,e) or (e,a) | (a,a) or (e,e) |
(c)
Interpretation:
Chair conformations of given compound should be drawn and most stable conformer is needed to be predicted between them and stable conformation at equilibrium also needed to be find.
Concept introduction:
Chair conformer: chair conformer is a stable conformer for cyclohexane compound. In this chair conformer two positions are important for substitutions one is equatorial and other one axial position. Axial positions are parallel to the axis of ring while equatorial positions are perpendicular to the axis of the ring.
Example:
After ring flip of the conformer, axial position becomes equatorial and equatorial position becomes axial.
Stereochemistry conversions in chair conformation are shown below.
| Substituent position | cis | trans |
| 1,2 position | (a,e) or (e,a) | (a,a) or (e,e) |
| 1,3 position | (a,a) or (e,e) | (a,e) or (e,a) |
| 1,4 position | (a,e) or (e,a) | (a,a) or (e,e) |
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Chapter 4 Solutions
ORGANIC CHEMISTRY, WITH SOL. MAN/ STUDY
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- One liter of chlorine gas at 1 atm and 298 K reacts completely with 1.00 L of nitrogen gas and 2.00 L of oxygen gas at the same temperature and pressure. A single gaseous product is formed, which fills a 2.00 L flask at 1.00 atm and 298 K. Use this information to determine the following characteristics of the product:(a) its empirical formula;(b) its molecular formula;(c) the most favorable Lewis formula based on formal charge arguments (the central atom is N);(d) the shape of the molecule.arrow_forwardHow does the square root mean square velocity of gas molecules vary with temperature? Illustrate this relationship by plotting the square root mean square velocity of N2 molecules as a function of temperature from T=100 K to T=300 K.arrow_forwardDraw product B, indicating what type of reaction occurs. F3C CF3 NH2 Me O .N. + B OMearrow_forward
- Benzimidazole E. State its formula. sState the differences in the formula with other benzimidazoles.arrow_forwardDraw product A, indicating what type of reaction occurs. F3C CN CF3 K2CO3, DMSO, H₂O2 Aarrow_forward19) Which metal is most commonly used in galvanization to protect steel structures from oxidation? Lead a. b. Tin C. Nickel d. Zinc 20) The following molecule is an example of a: R₁ R2- -N-R3 a. Secondary amine b. Secondary amide c. Tertiary amine d. Tertiary amidearrow_forward
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