Dependence of fission fragment mass-energy distribution on the angular momentum is studied within Langevin dynamics. The calculations are performed in the framework of the generalized temperature- dependent finite-range liquid drop model. The analysis is done for five compound nuclear systems representing heavy fissioning nuclei, medium fissioning nuclei, and a light fissioning one with the angular momentum varied in a wide range from l = 0 to 70 � . The coefficients d 〈 E K 〉 / dl 2 and are extracted. Previous analysis of the coefficient is generalized. Excitation energy dependence of the fission fragment mass-energy dis- tribution is also found. The qualitative comparison of the extracted values with the experimental data reveals good agreement for all the cases. The calculated values of the coefficients and are functions of the angular momentum, in contrast to the experimental estimations.