One chirality of CH3CHClCOOH is shown below.
Identify the image(s) below that exhibit the opposite chirality. Select all that apply.
1)Top Left Molecule
2)Bottom Right Molecule
3)Bottom Left Molecule
4)Top Right Molecule
bottom right
top right
Thank you
C4H8CLO2
PREDICT THE IR ABSORBANCIES PROTON NMR AND 13C NMR SPECTRAL CHARACTERISTICS FOR THE FOLLOWING MOLECULE. DRAW THE EXPECTED SPECTRA. ALSO PREDICT THE MASS SPECTRUM SHOWING THE MOLECULAR ION AND ANY SIGNIFICANT HIGHER M/Z PEAKS.
To determine the opposite chirality of CH3CHClCOOH, we need to identify the molecules that have a mirror image of the given structure. Chirality refers to the three-dimensional arrangement of molecules that cannot be superimposed on their mirror image.
Let's analyze each option:
1) Top Left Molecule: We need to determine if it is the mirror image of CH3CHClCOOH. To do so, we need to compare the arrangement of atoms. Looking at the substituents and their positions, we notice that this molecule is not the mirror image of CH3CHClCOOH. Therefore, it does not exhibit the opposite chirality.
2) Bottom Right Molecule: Similar to the previous analysis, we compare the arrangement of atoms. By examining the substituents and their positions, we observe that this molecule is the mirror image of CH3CHClCOOH. Therefore, it exhibits the opposite chirality.
3) Bottom Left Molecule: We repeat the comparison with the original structure. Upon analyzing the substituents and their positions, we find that this molecule does not conform to the mirror image of CH3CHClCOOH. Thus, it does not exhibit the opposite chirality.
4) Top Right Molecule: Once again, we compare the arrangement of atoms with CH3CHClCOOH. Observing the substituents and their positions, we realize that this molecule is indeed the mirror image of CH3CHClCOOH. Hence, it exhibits the opposite chirality.
To summarize, the molecules that exhibit the opposite chirality of CH3CHClCOOH are:
2) Bottom Right Molecule
4) Top Right Molecule