Chiral vs achiral | Stereochemistry | Organic chemistry | Khan Academy

Khan Academy Organic Chemistry

31 May 201404:17

Summary

TLDRThis video explores the concepts of chirality and achirality through engaging examples. It defines achiral objects, like a coffee cup, which can be superimposed on their mirror images, and contrasts this with chiral objects, such as human hands, that cannot align perfectly. The video further illustrates chiral molecules using examples from chemistry, emphasizing that molecules with a chiral center—where four different substituents are attached—are not superimposable on their mirror images. This distinction is crucial for understanding molecular behavior in various scientific fields.

Takeaways

😀 Achiral objects are superimposable on their mirror images.
😀 A coffee cup is an example of an achiral object.
😀 Chiral objects are not superimposable on their mirror images.
😀 The term 'chiral' is derived from the Greek word for 'hand.'
😀 Human hands serve as a classic example of chiral objects.
😀 The mirror image of a coffee cup aligns with the original cup, confirming its achirality.
😀 Difluoromethane is used to illustrate an achiral molecule.
😀 A molecule with a chiral center has four different substituents attached to a carbon atom.
😀 A complex molecule can be shown to be chiral if its mirror image cannot be superimposed onto it.
😀 Understanding chirality is essential in fields like chemistry and biology, particularly in molecular interactions.

Q & A

What is the definition of an achiral object?
-An achiral object is one that is superimposable on its mirror image.
Can you provide an example of an achiral object?
-A coffee cup is an example of an achiral object, as its mirror image can be superimposed onto the original.
What does the term 'chiral' mean?
-Chiral refers to objects that are not superimposable on their mirror images, and the term comes from the Greek word for 'hand.'
How do human hands illustrate chirality?
-Human hands are chiral because the left and right hands are mirror images of each other but cannot be superimposed regardless of rotation.
What is difluoromethane, and how is it related to chirality?
-Difluoromethane is a molecule where the mirror image is superimposable on the original, making it an achiral molecule.
What makes a molecule chiral?
-A molecule is chiral if its mirror image cannot be superimposed onto the original molecule, typically indicated by a chiral center.
What is a chiral center?
-A chiral center is a carbon atom that is bonded to four different substituents, leading to chirality in the molecule.
How can we demonstrate chirality using molecular models?
-By pulling out a molecular model and comparing its mirror image, we can rotate the model to see if it is superimposable with the original.
What significance does chirality have in chemistry?
-Chirality is significant in chemistry because it can affect the behavior and interaction of molecules, especially in biological systems.
Can you explain the difference between achiral and chiral molecules with an example?
-An example of an achiral molecule is difluoromethane, while an example of a chiral molecule is one with a carbon atom bonded to four different groups, making its mirror image non-superimposable.