Humans evolved to educate themselves — not sit in rows. All normal children are intensely curious, playful and sociable, beginning at birth or shortly after. A fourth drive, which we might call "planfulness" — the drive to think about and make plans for the future–emerges and strengthens as children grow ...
Humans evolved to educate themselves — not sit in rows.
All normal children are intensely curious, playful and sociable, beginning at birth or shortly after. A fourth drive, which we might call "planfulness" — the drive to think about and make plans for the future–emerges and strengthens as children grow older. It is reasonable to refer to these drives as the "educative drives". The biological foundations of these drives, encoded in DNA, have been shaped by natural selection, over our evolutionary history, to serve the purpose of education.
Our standard schools quite deliberately suppress these drives, especially the first three of them, in the interest of promoting conformity and keeping children fixed to the school’s curriculum. Self Directed Education operate by allowing these natural drives to flourish. Here is a bit of elaboration on each of these drives and how they interact with one another to promote education:
CURIOSITY
Aristotle began his great work on the origin of knowledge (Metaphysica) with the words, “Human beings are naturally curious about things.” Nothing could be truer. We are intensely curious, from the moment of our birth to, in many cases, the moment of our death. Within hours of birth, infants begin to look longer at novel objects than at those they have already seen.
As they gain mobility, first with their arms and hands and then their legs, they use that mobility to explore ever-larger realms of their environment. They want to understand the objects in their environment, and they particularly want to know what they can do with those objects. That’s why they are continuously getting into things, always exploring. That’s why, once they have language, they ask so many questions. Such curiosity does not diminish as children grow older, unless schooling quashes it, but continues to motivate ever more sophisticated modes of exploration and experimentation. Children are, by nature, scientists.
PLAYFULNESS
The drive to play serves educative purposes complementary to those of curiosity. While curiosity motivates children to seek new knowledge and understanding, playfulness motivates them to practice new skills and use those skills creatively. Children everywhere, when they are free to do so and have plenty of playmates, spend enormous amounts of time playing. They play to have fun, not deliberately to educate themselves, but education is the side effect for which the strong drive to play came about in the course of evolution. They play at the full range of skills that are crucial to their long-term survival and wellbeing.
They play in physical ways, as they climb, chase, and rough-and-tumble, and that is how they develop strong bodies and graceful movement.
They play in risky ways, and that is how they learn to manage fear and develop courage.
They play with language, and that is how they become competent with language.
They play socially, with other children, and that is how they learn to negotiate, compromise, and get along with peers.
They play games with implicit or explicit rules, and that is how they learn to follow rules.
They play imaginative games, and that is how they learn to think hypothetically and creatively.
They play with logic, and that is how they become logical.
They play at building things, and that is how they learn to build.
They play with the tools of their culture, and that is how they become skilled at using those tools.
Play is not recess from education; it IS education. Children learn far more in play, and with far more joy, than they could possibly learn in a classroom.
SOCIABILITY
We humans are not only the most curious and playful of mammals, but also the most social. Our children come into the world with an instinctive understanding that their survival and wellbeing depend on their ability to connect with and learn from other people. All humans, but especially young humans, want to know what those around them know and share their own thoughts and knowledge with others. Anthropologists report that children everywhere learn more by watching and listening to the people around them than through any other means.[1]
Our most unique adaptation for social life, which enhances tremendously our ability to learn from one another, is language. Almost as soon as they can talk at all, children start to ask questions. They don’t want to be told about things that don’t interest them, but they almost demand to be told about things that do. Language allows us to share all sorts of information with one another. It allows us to tell one another not just about the here and now, but also about the past, future, and hypothetical.
As the philosopher Daniel Dennett put it in a chapter on language and intelligence, “Comparing our brains with bird brains or dolphin brains is almost beside the point, because our brains are in effect joined together into a single cognitive system that dwarfs all others. They are joined by an innovation that has invaded our brain and no others: language.”[2]
Self-directed learners, eagerly and naturally, hook themselves into that network. Today, because of the Internet, that cognitive system is bigger than ever before. Young people with access to the Internet have access to the whole world of hypotheses, ideas, and information. Self-Directed Education has never been easier.
PLANFULNESS
We, far more than any other species, have the capacity to think ahead. In fact, we are driven to do so. We don’t just react to immediate conditions; we make plans and follow through on those plans. This is the most consciously cognitive of our basic educative drives, and it develops more slowly than the others. As children grow older, they become increasingly able and motivated to plan ahead, and ever farther ahead. This is the drive that leads self-directed learners to think about their life goals, big and small, and to deliberately seek out the knowledge and practice the skills needed to achieve those goals.
Cognitive scientists refer to this capacity to make plans and carry them out as self-directed executive functioning. Research by such scientists has shown that children who have ample free time to play and explore on their own and with other children, independent of adults, develop this capacity more fully than do children who spend more time in adult-structured activities.[3]
That is not surprising. When children create their own activities, without adult control, they are continuously practicing the ability to make plans and carry them out. They make mistakes, but they learn from those mistakes.
[by Prof. Dr. Peter Gray]
[1] Lancy, D. F., Bock, J., & Gaskins, S. (2010). Putting learning into context. In D. F. Lancy, J. Bock, & S. Gaskins (Eds.), The anthropology of learning in childhood, 3–10. AltaMira Press.
[2] Dennett, D. C. (1994). Language and intelligence. In J. Khalfa (Ed.), What is intelligence? Cambridge University Press.
[3] Barker, J. et al (2014). Less-structured time in children’s lives predicts self-directed executive functioning. Frontiers in Psychology, 5, 1-16.