Critical Dynamics - CORRECTIONS Chapter 2 p. 83, line following Eq. (2.151): "For a stationary solution" -> "For an equilibrium solution" p. 85, four/three lines above Eq. (2.16): "\int_t^{t+\tau} dt' \int_t^{t+\tau} dt'' \delta(t-t')" -> "\int_t^{t+\tau} dt' \int_t^{t+\tau} dt'' \delta(t'-t'')" line following Eq. (2.160): "stationarity requires" -> "thermal equilibrium requires" p. 89, third line of Eq. (2.178), second term: "\zeta \frac{\partial}{\partial v} [v \cdot P_1(x,v,t)]" -> "\zeta \frac{\partial}{\partial v} \cdot [v P_1(x,v,t)]" p. 91, integrand in Eq. (2.190): "\phi(t-t')" -> "\phi(t'-t'')" Eq. (2.191): "J_1(x) = \left[ F_{\rm rev}(x) - \Gamma \, \frac{\partial H(x)}{\partial x} \right] P_1(x,t) ... " -> "J_1(x,t) = \left[ F_{\rm rev}[x(t)] - \Gamma \, \frac{\delta H[x]}{\delta x(t)} \right] P_1(x,t) ... " p. 92, Prob. 2.3 (a): "N^2 / V" -> "N^2 / V^2" on right-hand side Chapter 3 p. 114, first line following Eq. (3.49): "C = C_V / V T" -> "C = C_V T / V" p. 116, in Eq. (3.58): "F_{\rm rev}^\alpha[\psi]" -> "F_{\rm rev}^\alpha[\psi](x)" Chapter 4 p. 167, second line after Eq. (4.104): "1/\tau - \kappa \partial F^\alpha_l / \partial \psi^\alpha_l" -> "1/\tau - \kappa \partial F^\alpha_{l+1} / \partial \psi^\alpha_{l+1}" Chapter 6 p. 237, fifth line from bottom: "dynamic Monte Carlo simulations" -> "spin dynamics simulations" p. 238, first line of Fig. 6.15 caption: "Monte Carlo simulations" -> "Spin dynamics simulations" Chapter 8 p. 312, Eq. (8.9), second line: "dt" -> "dt'" p. 337, Eq. (8.102) l.h.s. needs \int_0^t_f dt p. 337, bottom line: "A[S^\alpha(x, t - t_f)]" -> "A[S^\alpha(x, t_f - t)]" p. 338: second line in equation on top: "{\hat W}_J[S]" -> "{\hat W}_J[S] / k_{\rm B} T" p. 341, Prob. 8.1: replace Z_0 with A_0: "classical field equations \delta {\cal Z}_0 / \delta {\widetilde S}^\alpha = 0 = \delta {\cal Z}_0 / \delta S^\alpha" -> "classical field equations \delta {\cal A}_0 / \delta {\widetilde S}^\alpha = 0 = \delta {\cal A}_0 / \delta S^\alpha" Chapter 9 p. 357, r.h.s. of Eq. (9.28): "\sum_{n_i}" -> "\sum_{{n_i},{m_i},...}" p. 357, second line following Eq. (9.30): "n_i -> n_i + k - l" -> "n_i -> n_i - k + l" p. 362, Eq. (9.47): in first line: insert "{\widetilde A}({1},{\phi_i})" before "e^{\sum_i \phi_i(t_f)}" and in the second line insert square brackets "[" before "\sum_i" and "]" at the end of the exponential p. 362, in first line of Eq. (9.49): "H(\phi_i^*(t),\phi_i(t))" -> "H(\{ \phi_i^*(t) \},\{ \phi_i(t) \})" p. 380, third line following Eq. (9.99): "\rho = (D J^2 / \lambda)^{1/3} a" -> "\rho = (\lambda / D J^2)^{1/3} a" Chapter 10 p. 420, first line: "suseptible" -> "susceptible" p. 421, fifth line and first line after Eq. (10.86): "\mu_{AB}" -> "\mu" p. 432, Eq. (10.131): "- \rho \, \phi(x,t)^3" -> "+ \rho \, \phi(x,t)^3"