The crystallization behaviours of cordierite gel derived from sol-gel method and glass prepared from conventional melting method with or without $TiO_2$ as nucleants are compared. The densification temperature of gel is $810^{circ}C$ and its chemical structure identified by IR analysis is same as that of glass melted by conventional method. The beginning crystallization temperature of gel is $965^{circ}C$ lower than that of melted glass with 10wt% $TiO_2$, which is $978^{circ}C$. The crystalline phases developed from gel during heat treatment are identified as spinel, $eta$-quartz solid solution and $alpha$-cordierite crystal and crystalline phases in case of glass are (Mg,Al)TiOn and $eta$-quartz solid solution and $alpha$-cordierite crystal, respectively. The crystallization in melted glass with nucleants occurs through bulk crystallization and in case of that without nucleants surface crystallization occurs, while the crystallization in gel is internal crystallization from interface between particles formed after densification.