At its core, raving has existed in opposition to normativity, and so has electronic music. If newcomers enticed by hard trance remixes of 2000’s Top 40 hits embrace this opposition, it is often done in ways removed from history. As Loren Granic AKA Goddollars, co-founder and resident of A Club Called Rhonda in Los Angeles, stated: “Many of the newcomers are straight/white kids who are very far removed from the LGBT community, despite fist-pumping by the millions to a music that was born from gay people of colour sweating their asses off at 5 AM in a Chicago warehouse.” If the role marginalized people have played in the creation and pioneering of their favourite music is ignored, how would people react when told that their fun might also harm marginalized groups? The ethics of lockdown raves have always been fraught, as their repercussions reverberate beyond the people who choose to attend them; meanwhile, data shows that people of colour were more likely to be targeted for attending raves during the lockdown.
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In cognitive science, creative ideas are defined as original and feasible solutions in response to problems. A common proposal is that creative ideas are generated across dedicated cognitive pathways. Only after creative ideas have emerged, they can be enacted to solve the problem. We present an alternative viewpoint, based upon the dynamic systems approach to perception and action, that creative solutions emerge in the act rather than before. Creative actions, thus, are as much a product of individual constraints as they are of the task and environment constraints. Accordingly, we understand creative motor actions as functional movement patterns that are new to the individual and/or group and adapted to satisfy the constraints on the motor problem at hand. We argue that creative motor actions are promoted by practice interventions that promote exploration by manipulating constraints. Exploration enhances variability of functional movement patterns in terms of either coordination or control solutions. At both levels, creative motor actions can emerge from finding new and degenerate adaptive motor solutions. Generally speaking, we anticipate that in most cases, when exposed to variation in constraints, people are not looking for creative motor actions, but discover them while doing an effort to satisfy constraints. For future research, this paper achieves two important aspects: it delineates how adaptive (movement) variability is at the heart of (motor) creativity, and it sets out methodologies toward stimulating adaptive variability.
