Accurate values of the electric multipole moments of HCN and HCP have been obtained from self-consistent field (SCF) and coupled-cluster (CCSD(T)) calculations. With the origin at the centre of mass and hydrogen along the positive molecular axis in both systems, a [9s5p2d/10s7p5d3f/10s7p5d3f] basis set is expected to predict near-Hartree-Fock values for the dipole (μ = 1.2962ea0), quadrupole (Θ = 2.1046ea02), octopole (Ω = 10.088ea03) and the hexadecapole (φ = 24.23ea04) moment of HCN. An analogous basis set, [9s5p2d/10s7p5d3f/ 14s11p7d3f], predicts SCF values of μ = 0.1421ea0, Θ = 3.8786ea02,Ω = 19.633ea03 and φ = 65.89ea04 for HCP. Electron correlation reduces the dipole moment of HCN but increases the dipole moment of HCP. At the CCSD(T) level of theory the calculated values are μ = 1.1800ea0, Θ-1.6461ea02, Ω = 9.162ea03 and φ = 22.45ea04 for HCN and μ = 0.1710ea0, Θ = 3.2312ea02, Ω = 16.578ea03 and φ = 60.87ea04 for HCP.