Part 1 The standard electroweak model: structure of the standard model, P. Langacker; renormalization of the standard model, W. Hollik; predictions for e+e- processes, W. Holik; radiative corrections to neutral current processes, W. Marciano. Part 2 Precision tests at e+e-colliders: e+e- annihilation below the Z pole, D. Haidt and R. Marshall; Z-pole experiments, D. Schaile; polarization in e+e- annihilation, A. Blondel; the LEP II program, D. Treille; future e+e- colliders at high energy, D. Burke. Part 3 The weak neutral current: the measurement of electroweak parameters from deep inelastic neutrino scattering, F. Perrier; elastic neutrino-nucleon scattering, A.K. Mann; neutrino-electron scattering, J. Panman; atomic parity violation experiments, C. Wieman; the theory of atomic parity violation, J. Sapirstein; charged lepton-hadron asymmetries in target experiments, P. Souder; precision electroweak tests at HERA, H. Spiesberger. Part 4 The weak charged current: the unitarity of the Quark mixing matrix, A. Sirlin; beta decay, right-handed currents and the search for new physics, J. Deutsch; precision measurements in muon and tau decays, W. Fetscher and H.-J. Gerber;; muon decay and beta decay beyond the standard model, P. Herczeg. Part 5 Precision tests at hadron colliders, E. Einsweiler. Part 6 Implications of precision experiments: tests of the standard model and searches for new physics, P. Langacker; exotic fermions, D. London. Part 7 The future, M Luo.
