Measurements of temperature distribution and local heat flux were performed in a rectangular Rayleigh-Benard (RB) cell with aspect ratios Gamma(x) = 5 and Gamma(y) = 1 using air as the working fluid. The range of Rayleigh numbers was from Ra approximate to 6 x 10(7) up to Ra approximate to 6 x 10(8) and the measurements were taken at four different positions oil the cooling and heating plates. The structure of the temperature profiles was analysed with the scaling to the temperature gradient at the wall gamma, calculated from both global Nusselt number (gamma(glob)) and the measured local heat flux density q (gamma(loc)). The measured local Nusselt number in the center of Rayleigh-Benard cell is Found to be significantly higher than the global Nusselt number, which was calculated from I heat transfer law, based on asymptotic considerations from Hoelling and Herwig [M. Hoelling, H. Herwig, Asymptotic analysis of heat transfer in turbulent RB-convection, Int. J. Heat Mass Transfer 49 (2006) 1129-1136]. Profiles scaled with agree very well with the universal asymptotic temperature profile for Ra -> infinity. Conversely. profiles scaled with have another structure. The results clearly show the difference between the temperature profiles from the theoretical model with walls of infinite extend and from the real RB-cell. In contrast to common opinion the structure of the temperature profile was found to consist of three different behaviors. It has been observed for all profiles a linear behavior in the viscous sublayer directly oil the wall, a power law in the boundary layer and,I logarithmic function in the overlap layer. (c) 2008 Elsevier Ltd. All rights reserved.