Many familiar objects are chiral - for instance, a right glove and left glove are enantiomorphic. Some molecules are chiral, for instance [optical isomer]?s, and their study is part of stereochemistry. The fundamental laws of physics may be chiral, as the weak charge is not invariant under a reflection unless particle are replaced by their antiparticles as well, and kaon? decay appears to violate even that symmetry. |
Many familiar objects are chiral - for instance, a right glove and left glove are enantiomorphic, and so are the S and Z tetrominoes of the popular video game Tetris. Some molecules are chiral, for instance [optical isomer]?s, and their study is part of stereochemistry. The fundamental laws of physics may be chiral, as the weak charge is not invariant under a reflection unless particle are replaced by their antiparticles as well, and kaon? decay appears to violate even that symmetry. |
Many familiar objects are chiral - for instance, a right glove and left glove are enantiomorphic, and so are the S and Z tetrominoes of the popular video game Tetris. Some molecules are chiral, for instance [optical isomer]?s, and their study is part of stereochemistry. The fundamental laws of physics may be chiral, as the weak charge is not invariant under a reflection unless particle are replaced by their antiparticles as well, and kaon? decay appears to violate even that symmetry.