Sampling from the Gibbs distribution is a well studied problem in computer science as well as in statistical physics. In this work we focus on the k-colouring model and the hard-core model with fugacity λ when the underlying graph is an instance of Erdős-Rényi random graph G(n, p), where p = d/n and d is fixed. We use the Markov Chain Monte Carlo method for sampling from the aforementioned distributions. In particular, we consider Glauber (block) dynamics. We show a dramatic improvement on the

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... ounds for rapid mixing in terms of the number of colours and the fugacity for the corresponding models. For both models the bounds we get are only within small constant factors from the conjectured ones by the statistical physicists. We use Path Coupling to show rapid mixing. For k and λ in the range of our interest the technical challenge is to cope with the high degree vertices, i.e. vertices of degree much larger than the expected degree d. The usual approach to this problem is to consider block updates rather than single vertex updates for the Markov chain. Taking appropriately defined blocks the effect of high degree vertices diminishes. However devising such a block construction is a non trivial task. We develop for a first time a weighting schema for the paths of the underlying graph. Only, vertices which belong to "light" paths can be placed at the boundaries of the blocks. The tree-like local structure of G(n, d/n) allows the construction of simple structured blocks.