We have obtained accurate static electric polarizabilities and hyperpolarizabilities for the sodium atom. Relying on finite-field coupled-cluster (CC) calculations with large, systematically optimized basis sets of Gaussian-type functions we report values of 165.06 e(2)a(0)(2)E(h)(-1) for the dipole polarizability alpha, 1915.4 e(2)a(0)(4)E(h)(-1) for the quadrupole polarizability alpha (2), -66.1 x 10(3) e(3)a(0)(4)E(h)(-2) for the dipole-dipole-quadrupole hyperpolarizability B and 956 x 10(3) for the dipole hyperpolarizability It. The present theoretical dipole polarizability value is larger than all three available experimental estimates of this important property. The calculation of the dipole hyperpolarizability appears to be a problem of some difficulty, establishing the importance of reliable computational strategies for the determination of nonlinear optical properties of sodium clusters.