The correlations showing better than 0. 390% RMS deviation, among the energies or vibration frequencies, of the five phonons that limit the rate of the proton-prohol generation-recombination-trapping transport kinetics, from our PBFits (Physics Based Fits), from the optical properties of isolated water molecules in the vapor phase measured by others, and from those predicted by the simple 1 -D spring-mass linear chain model, <inline-formula> $omega_{{m}}/omega =(K_{{m}}/M_{{m}})^{{1/2 }}$ </inline-formula> where m is the total mass number of the mobile protons on the four neutral (<inline-formula> $m=8$ </inline-formula>) or charged (<inline-formula> $m=8+1=9$ </inline-formula> and <inline-formula> $m=8 -1=7$ </inline-formula>) water molecules and also of the immobile protons in the nuclei of the four water oxygen nuclei in the 4 -water molecule hexagonal close packed primitive unit cell of our Melted-Ice Liquid Water model, which also differentiates from the 2 -water molecule cubic primitive unit cell which appears in about 20% volume at lower-temperature (<inline-formula> $< -140$ </inline-formula> ℃) type <inline-formula> $I_{mathrm{C }}$ </inline-formula> ice. Binbin Jie, Chihtang Sah Studies of Water V. Five Phonons in Protonic Semiconductor Lattice Model of Pure Liquid Water Journal of Semiconductors, 2017, 38(7) http: //dx. doi. org/10. 1088/1674 -4926/38/7/071001