The basic equations of the coupled channel method for (d, p) reactions derived in a previous paper, I [T. Ohmura, B. Imanishi, M. Ichimura and M. Kawai, Prog. Theor. Phys. 41 (1969), 391], are transformed into forms which are convenient for practical calculations in which the interaction kernels are symmetric with respect to channels. The calculated S-matrix is then also shown to be symmetric, despite the presence of the imaginary part of the optical potentials. An explicit form of the interaction kernel is given and some numerical examples are presented. The properties of the kernel is discussed in detail. The method of numerical solution of the basic equations is described in detail and examples of the calculated cross section are presented. In the calculations the non-orthogonality term in the interaction kernel is neglected. Rather detailed discussions are given on the Pauli principle between the participating nucleons. It is shown that the effect of the Pauli principle is expressed in a certain approximation by a multiplication of the interaction kernel by the square root of the spectroscopic factor.