Force and energy are interconnected concepts in physics. In classical physics, force is defined as the rate of change of momentum, and energy is the capacity to do work. In this framework, forces are typically associated with the transfer or transformation of energy.
Based on our current understanding of physics, it would be difficult to conceive of a force existing without some form of energy associated with it. Forces are typically the result of interactions between objects or fields, and these interactions involve the transfer or transformation of energy.
For example, when you push an object, you exert a force on it, and that force is associated with the energy you expend in doing the work of pushing. Similarly, gravitational forces arise due to the presence of gravitational potential energy associated with massive objects.
In quantum field theory, forces are described by the exchange of particles called force carriers or gauge bosons. These force-carrying particles mediate interactions between particles, and their existence is connected to the energy associated with the corresponding fields.
Therefore, in the context of our current understanding of physics, it is challenging to imagine a force existing without some form of energy associated with it. Forces and energy are intertwined concepts, and forces typically involve the transfer, transformation, or interaction of energy in some way.