In quantum mechanics, when the free particle, e.g. electron, impinges on a one dimensional quantum well, the particle can penetrate through the well with probability 1 at some specific energy. This quantum phenomenon is called the transmission resonance, and can be observed using scanning tunneling spectroscopy for some thin metal films. We deposit Ag to form films on three different substrates, which are Cu(100), Pd(111), and Au(111), for studying the interface effect on transmission resonance. Our results demonstrate that the transmission resonance appears in the Ag/Cu(100) and Ag/Pd(111) systems but disappears in the Ag/Au(111) system. The mechanisms behind these results are the interface sharpness and the electronic structures of the substrates. The thickness dependence of transmission resonances was observed, and it was also confirmed that transmission resonances push standing wave states behind them to higher energy level.