 This study investigates the impact of nonmarcovian evolution on prominent characteristics of quantum thermodynamics such as ergotropy and power using both geometric-based and physical properties-based measures to compute the quantum speed limit time for a simple nonmarcovian model of a qubit in a bosonic bath. The results show that the nonmarcovian evolution impacts the recharging process of the quantum battery and the discharging-charging cycle with connections between physical properties-based measures of the quantum speed limit time and the coherent component of ergotropy observed. This article was authored by Dev Rath Tawari and Subashish Banerjee.