The efficiency of mobile agricultural energy tools is significantly influenced by the design of tractors and the degree of their rational use. The operational characteristics of tractors are determined by their construction. One such characteristic is their agro-technical adaptability, which reflects the tractor’s ability to align with the technological conditions of agricultural crop care and cultivation, as well as their classification, mobility, and maneuverability. The key indicators of mobility include the tractor’s traction force and slippage, specific pressure on the soil, road clearance, dimensions, and stability when working on slopes. It also includes the size of protective zones during inter-row operations. The transition from trailed soil-tilling implements to mounted implements (in the 1950s) was a positive development in agricultural mechanization, improving the reliability and fuel efficiency of machinery. Mounted plowing implements simultaneously perform multiple operations in a unified system, including cutting and detaching soil, turning it over, loosening, and mixing it for pre-sowing preparation. Such implements are used for deep loosening, cultivation, disking, rotary tilling, rolling, and more. This scientific study presents the influence of the mobility of mobile energy tools (tractors) on certain operational performance indicators.