Is it axial, equatorial, or ax/eq?
Homework Answers
Bulky groups are placed in equatorial position to reduce diaxial repulsion.
Also H atoms can occupy both ax/eq as both the H at that C are
equivalent.
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Is it axial, equatorial, or ax/eq?
The cyclohexane derivative shown exists primarily in the more stable...
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations. Give the position, axial or equatorial, of each of the three groups shown in the more st...
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations. Give the position, axial or equatorial, of each of the three groups shown in the more stable chair conformation. If a group divides its time equally between axial and equatorial positions, indicate this with ax/eq The table of "Axial Strain Energies for Monosubstituted Cyclohexanes" found in the "Strain Energy Increments" section of the Reference tool is useful for answering this question. CH-CH2 CI Group...
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations....
The cyclohexane derivative shown exists primarily in the more
stable of the two available chair conformations. Give the position,
axial or equatorial, of each of the three groups shown in the more
stable chair conformation. If a group divides its time equally
between axial and equatorial positions, indicate this with
ax/eq.
The table of "Axial Strain Energies for Monosubstituted
Cyclohexanes" found in the "Strain Energy Increments" section of
the Reference tool is useful for answering this
question.
The choices are...
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations....
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations. Give the position, axial or equatorial, of each of the three groups shown in the more stable chair conformation. If a group divides its time equally between axial and equatorial positions, indicate this with ax/eq. The table of "Axial Strain Energies for Monosubstituted Cyclohexanes" found in the "Strain Energy Increments" section of the Reference tool is useful for answering this question. СІ bCH2CH3 Group...
with explanation 1) Draw a chair conformation of cyclohexane. Then, draw and level properly all axial...
with explanation
1) Draw a chair conformation of cyclohexane. Then, draw and level properly all axial and equatorial positions on chair form of cyclohexane. 2) Draw chair, half-chair and boat conformations of ethyl cyclohexane and draw an energy diagram to explain their relative stability: 3) Draw two possible chair conformations for each of the mono-substituted cyclohexanes and determine their relative stability with proper explanation. OH 4) Draw two possible chair conformations for each of the di-substituted cyclohexanes and determine their...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calcula...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keq, and then use this value to find the percentage.) A CH3...
ball & stick + labels Name the above compound, identify each substitutent as axial or equatorial,...
ball & stick + labels Name the above compound, identify each substitutent as axial or equatorial, and tell whether the conformation shown is the more stable or less stable form Omit customary italics from your name. • Substitutents R1 and R2 are designated in the order they appear in the IUPAC name. Axial/oquatorial strain energy increments are available in the table below. 1. The IUPAC name is 2. Position of RI Position of R2 3. The conformation shown is the...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments)...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions (axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keq, and then use this value to find the percentage.) OH H3C...
ssignment/takeCovalentActivity do locator assignment-Take&takeAssignmentsessionlocator assignment-takec be cyclobexane derivative shown exists peimarily is the more stable of...
ssignment/takeCovalentActivity do locator assignment-Take&takeAssignmentsessionlocator assignment-takec be cyclobexane derivative shown exists peimarily is the more stable of the two available chair cosf hree groups shown in the more stable chair confomatios If a group divides its time equally betweer The table of "Axial Strain Energies for Monosubstitutied Cyelohexanes found in the "Strain Fnergy l Dis questios Group a is Group h is Group is etry Entire Grosp Ne more graup atepts reman DELL
need the answer to the question: calculate the difference in energy between the axial and equatorial...
need the answer to the question:
calculate the difference in energy between the axial and equatorial
conformations.
VII. Calculations of the Conformations of Substituted Cyclohexanes In this exercise, you will examine the conformational equilibrium between axial and equatorial methylcyclohexane. Begin by drawing a methylcyclohexane using ChemDraw. Don't forget about the rings shown at the bottom of the toolbar. Chem3D will automatically put the methyl group in the low energy equatorial conformation. Minimize the energy using the calculations) menu. Select MM2...
(a) Given a cyclohexane framework in a chair conformation, label each position as axial (ax.) or...
(a) Given a cyclohexane framework in a chair conformation, label each position as axial (ax.) or equatorial (eq.). (b) On the same figure, label all positions that are gauche (ga.) to the Y group on carbon 1. A bin may hold more than one label.
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations. Give the position, axial or equatorial, of each of the three groups shown in the more stable chair conformation. If a group divides its time equally between axial and equatorial positions, indicate this with ax/eq The table of "Axial Strain Energies for Monosubstituted Cyclohexanes" found in the "Strain Energy Increments" section of the Reference tool is useful for answering this question. CH-CH2 CI Group...
The cyclohexane derivative shown exists primarily in the more
stable of the two available chair conformations. Give the position,
axial or equatorial, of each of the three groups shown in the more
stable chair conformation. If a group divides its time equally
between axial and equatorial positions, indicate this with
ax/eq.
The table of "Axial Strain Energies for Monosubstituted
Cyclohexanes" found in the "Strain Energy Increments" section of
the Reference tool is useful for answering this
question.
The choices are...
The cyclohexane derivative shown exists primarily in the more stable of the two available chair conformations. Give the position, axial or equatorial, of each of the three groups shown in the more stable chair conformation. If a group divides its time equally between axial and equatorial positions, indicate this with ax/eq. The table of "Axial Strain Energies for Monosubstituted Cyclohexanes" found in the "Strain Energy Increments" section of the Reference tool is useful for answering this question. СІ bCH2CH3 Group...
with explanation
1) Draw a chair conformation of cyclohexane. Then, draw and level properly all axial and equatorial positions on chair form of cyclohexane. 2) Draw chair, half-chair and boat conformations of ethyl cyclohexane and draw an energy diagram to explain their relative stability: 3) Draw two possible chair conformations for each of the mono-substituted cyclohexanes and determine their relative stability with proper explanation. OH 4) Draw two possible chair conformations for each of the di-substituted cyclohexanes and determine their...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keq, and then use this value to find the percentage.) A CH3...
ball & stick + labels Name the above compound, identify each substitutent as axial or equatorial, and tell whether the conformation shown is the more stable or less stable form Omit customary italics from your name. • Substitutents R1 and R2 are designated in the order they appear in the IUPAC name. Axial/oquatorial strain energy increments are available in the table below. 1. The IUPAC name is 2. Position of RI Position of R2 3. The conformation shown is the...
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions (axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keq, and then use this value to find the percentage.) OH H3C...
ssignment/takeCovalentActivity do locator assignment-Take&takeAssignmentsessionlocator assignment-takec be cyclobexane derivative shown exists peimarily is the more stable of the two available chair cosf hree groups shown in the more stable chair confomatios If a group divides its time equally betweer The table of "Axial Strain Energies for Monosubstitutied Cyelohexanes found in the "Strain Fnergy l Dis questios Group a is Group h is Group is etry Entire Grosp Ne more graup atepts reman DELL
need the answer to the question:
calculate the difference in energy between the axial and equatorial
conformations.
VII. Calculations of the Conformations of Substituted Cyclohexanes In this exercise, you will examine the conformational equilibrium between axial and equatorial methylcyclohexane. Begin by drawing a methylcyclohexane using ChemDraw. Don't forget about the rings shown at the bottom of the toolbar. Chem3D will automatically put the methyl group in the low energy equatorial conformation. Minimize the energy using the calculations) menu. Select MM2...
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