Construct a model with four different groups(black,yellow,red, and green) attached to the central atom(black), set the...
Construct a model with four different groups(black,yellow,red, and green) attached to the central atom(black), set the substituent black atom points toward the ceiling.
1. In which direction, clockwise or counterclockwise must you proceed to list the same sequence of colors of the three atoms resting on the desk surface?
2. Make an exact model and try to superimpose the two models, how do the models differ from one another?
Replace the green atom in each model with a yellow atom, so that each model has two identical groups attached to the central atom.
3. Are the models still mirror images and do either have a plane of symmetry, if so where?
4. Are they superimposable, identical, or differerent molecules?
Place the models on your desk so that the black substituent points up.
5. To define the same sequence for the three atoms resting on the desk, must you proceed clockwise or counterclockwise and are they chiral?
Homework Answers
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Construct a model with four different groups(black,yellow,red,
and green) attached to the central atom(black), set the...
1. Construct a model that has a central carbon atom with 4 different colored spheres attached...
1. Construct a model that has a central carbon atom with 4 different colored spheres attached to it, representing four different atoms or groups. Draw a solid/dashed-wedge structure of this model here and answer the following questions. C (a blue ball) D Fig. 1 B 2. Reconstruct the original stereogenic carbon with the four different colored balls again. Set the model on the table so that the blue ball (C In the Fig 1) points upwards. a. Looking down on...
Chiral centers Procedure: Construct a model* in which a tetrahedral (sp 3) carbon atom (black) has...
Chiral centers Procedure: Construct a model* in which a tetrahedral (sp 3) carbon atom (black) has four different model atoms attached to it. Use the light blue ball, red, blue and, green polyhedrons to represent four different atoms or groups attached to the central atom (black). 1. Does the model have a plane of symmetry? a. Yes b. No
1. Construct a model that has a central carbon atom with 4 different colored spheres attached...
1. Construct a model that has a central carbon atom with 4 different colored spheres attached to it, representing four different atoms or groups. Draw a solid/dashed-wedge structure of this model here and answer the following questions. ç (a blue ball) IND Fig. 1 B a. Does the model have a plane of symmetry? Yes No The central carbon is said to be a stereocenter, stereogenic center, or chiral carbon. Change one of the colored spheres so that two of...
1. Construct a model consisting of a tetrahedral carbon center with four different component atoms attached:...
1. Construct a model consisting of a tetrahedral carbon center with four different component atoms attached: red, white, blue, green; each color represents a different group or atom attached to carbon. Does this model have a plane of symmetry (1a)? A plane of symmetry can be described as a cutting plane-a plane that when passed through a model or object divides it into two equivalent halves; the elements on one side of the plane are the exact reflection of the...
please solve all 4. Enantiomers.- THIS FOLLOWING EXERCISES ON PAGES 6 AND 7 ARE TO BE...
please solve all
4. Enantiomers.- THIS FOLLOWING EXERCISES ON PAGES 6 AND 7 ARE TO BE DONE AS A GROUP WITH THE LAB INSTRUCTOR!!!! a) Construct a model consisting of a tetrahedral carbon center with four different atoms attached - use white, green, orange and violet balls. Each color represents a different group or atom attached to the central carbon. Does this model have a plane of symmetry? Note 1: a plane of symmetry can be described as a cutting...
PART OPTICAL ISOMERISM Stereocenters and Chirality Construct a model in which a central carbon (black) has...
PART OPTICAL ISOMERISM Stereocenters and Chirality Construct a model in which a central carbon (black) has four different groups directly attached (a single sphere each of white, red, green andble). Draw this in your lab notebook. 1. Does this molecule have a rotational axis of symmetry? 2 plae of symmetry? This molecule is said to contain a stereocenter (in view of the 4 different attached groups. Here this center provides the molecule with chirality ("handedness", a molecular property). Thus the...
A. Enantiomers: Certain substances have the unique property of rotating the plane of plane-polarized light. Such...
A. Enantiomers: Certain substances have the unique property of rotating the plane of plane-polarized light. Such light rotation is detectable with the aid of a polarimeter. In order for a molecule to be optically active it must be chiral. Chiral objects lack a plane of symmetry and are non-superimposable on their mirror images. A sp?- hybridized carbon atom can fulfill these requirements if all four of its substituents are different. 1. Methane a) Prepare a methane molecule and then substitute...
3. Cyclic compounds The presence of the ring in all but very large ring cyclic molecules...
3. Cyclic compounds The presence of the ring in all but very large ring cyclic molecules prevents full rotation of the ring atoms. For this reason, stereoisomerism may also occur in cyclic molecules. a) Prepare a model of cyclohexane, C6H12. Draw the condensed formula. b) Build a model of methylcyclohexane (C7H14) by replacing one of the hydrogens of cyclohexane with a methyl group. Draw the skeletal formula for methylcyclohexane. 2 c) How many different isomers exist for methylcyclohexane (CyH34)? d)...
19-26 thanks! 19-29* PART 3: 2,3-BUTANEDIOL CH-CH(OH)-CH(OH)-CH, mirror images, not superimposable Build as many models of...
19-26 thanks!
19-29*
PART 3: 2,3-BUTANEDIOL CH-CH(OH)-CH(OH)-CH, mirror images, not superimposable Build as many models of 2,3-butanediol as you can. First, attach two carbons with a single bond. To each carbon add one carbon, one hydrogen, and one oxygen. To complete the structure, Ti the remaining hydrogen atoms. Remember, a model is not different if it is completely superimposable on one already constructed! 13. How many stereochemically different models are possible for 2,3-butanediol? 14. What characteristic does one of these...
Make3 a model of cyclopentane. Does this molecule seem to have any ring strain in the...
Make3 a model of cyclopentane. Does this molecule seem to have any ring strain in the sense that the three and four-membred rings do? The molecule is not completely strin-free because there is some eclipsing. Identify the eclipsed atoms or groups when the molecule is planar. In fact the molecule is not planar, but is puckered in either of two ways; (i) One C-atom is abover or below the plane defined by the other four coplanar C-atoms defining an envelope...
1. Construct a model that has a central carbon atom with 4 different colored spheres attached to it, representing four different atoms or groups. Draw a solid/dashed-wedge structure of this model here and answer the following questions. C (a blue ball) D Fig. 1 B 2. Reconstruct the original stereogenic carbon with the four different colored balls again. Set the model on the table so that the blue ball (C In the Fig 1) points upwards. a. Looking down on...
Chiral centers Procedure: Construct a model* in which a tetrahedral (sp 3) carbon atom (black) has four different model atoms attached to it. Use the light blue ball, red, blue and, green polyhedrons to represent four different atoms or groups attached to the central atom (black). 1. Does the model have a plane of symmetry? a. Yes b. No
1. Construct a model that has a central carbon atom with 4 different colored spheres attached to it, representing four different atoms or groups. Draw a solid/dashed-wedge structure of this model here and answer the following questions. ç (a blue ball) IND Fig. 1 B a. Does the model have a plane of symmetry? Yes No The central carbon is said to be a stereocenter, stereogenic center, or chiral carbon. Change one of the colored spheres so that two of...
1. Construct a model consisting of a tetrahedral carbon center with four different component atoms attached: red, white, blue, green; each color represents a different group or atom attached to carbon. Does this model have a plane of symmetry (1a)? A plane of symmetry can be described as a cutting plane-a plane that when passed through a model or object divides it into two equivalent halves; the elements on one side of the plane are the exact reflection of the...
please solve all
4. Enantiomers.- THIS FOLLOWING EXERCISES ON PAGES 6 AND 7 ARE TO BE DONE AS A GROUP WITH THE LAB INSTRUCTOR!!!! a) Construct a model consisting of a tetrahedral carbon center with four different atoms attached - use white, green, orange and violet balls. Each color represents a different group or atom attached to the central carbon. Does this model have a plane of symmetry? Note 1: a plane of symmetry can be described as a cutting...
PART OPTICAL ISOMERISM Stereocenters and Chirality Construct a model in which a central carbon (black) has four different groups directly attached (a single sphere each of white, red, green andble). Draw this in your lab notebook. 1. Does this molecule have a rotational axis of symmetry? 2 plae of symmetry? This molecule is said to contain a stereocenter (in view of the 4 different attached groups. Here this center provides the molecule with chirality ("handedness", a molecular property). Thus the...
A. Enantiomers: Certain substances have the unique property of rotating the plane of plane-polarized light. Such light rotation is detectable with the aid of a polarimeter. In order for a molecule to be optically active it must be chiral. Chiral objects lack a plane of symmetry and are non-superimposable on their mirror images. A sp?- hybridized carbon atom can fulfill these requirements if all four of its substituents are different. 1. Methane a) Prepare a methane molecule and then substitute...
3. Cyclic compounds The presence of the ring in all but very large ring cyclic molecules prevents full rotation of the ring atoms. For this reason, stereoisomerism may also occur in cyclic molecules. a) Prepare a model of cyclohexane, C6H12. Draw the condensed formula. b) Build a model of methylcyclohexane (C7H14) by replacing one of the hydrogens of cyclohexane with a methyl group. Draw the skeletal formula for methylcyclohexane. 2 c) How many different isomers exist for methylcyclohexane (CyH34)? d)...
19-26 thanks!
19-29*
PART 3: 2,3-BUTANEDIOL CH-CH(OH)-CH(OH)-CH, mirror images, not superimposable Build as many models of 2,3-butanediol as you can. First, attach two carbons with a single bond. To each carbon add one carbon, one hydrogen, and one oxygen. To complete the structure, Ti the remaining hydrogen atoms. Remember, a model is not different if it is completely superimposable on one already constructed! 13. How many stereochemically different models are possible for 2,3-butanediol? 14. What characteristic does one of these...
Make3 a model of cyclopentane. Does this molecule seem to have any ring strain in the sense that the three and four-membred rings do? The molecule is not completely strin-free because there is some eclipsing. Identify the eclipsed atoms or groups when the molecule is planar. In fact the molecule is not planar, but is puckered in either of two ways; (i) One C-atom is abover or below the plane defined by the other four coplanar C-atoms defining an envelope...
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