The investigation deals with the electrical properties of bovine bones. Dielectric constant, dielectric loss, conductivity and resistivity are determined in bovine tissues are lossy dielectric. They are partly polarisable and partly conductive. The influence of calcium phosphate on the electrical behavior of bone is also studied. Data of electrical parameters of bovine scapula, rib and femur bones reveal the considerable variation in different bones samples and also in different specimens of the same bone, obtained from various parts of the bone. This may be attributed to the inhomogeneous deposition of calcium phosphate and water content of the bones. The sharp fractional changes in dielectric constant and resistivity with the water content of bone specimens suggests that the electrical parameters are very sensitive to free water present in bones in contrast to ultrasonic and mechanical properties. Influence of water on electrical behavior is specific to bone because of the fact that mineral content of the bone is found to be in different proportions which also effects the electrical make up of the bone. The three parameters namely water content, mineral content (calcium phosphate) and orientation of the collagen fibers with respect to the applied electric field, play an important role in influencing the electrical parameters conductivity of the bone tissue, when measured at the bulk, level.