Since then, many more fossils have been discovered and researchers better understand
the complexities of human evolution.
Not exact matches
consciousness is present in all matter, just like gravity it is inherent and innate to everything produced after the big bang, only its level
of existence varies with
evolution, highest is that
of living things, at the top is us
humans because
of the biological nature
of our existence we evolve fastest and our brains has attained the highest level
of complexity
Projected forwards, this law
of recurrence makes it possible for us to envisage a future state
of the Earth in which
human consciousness, reaching the climax
of its
evolution, will have attained a maximum
of complexity, and, as a result,
of concentration by total «reflection» (or planetization)
of itself upon itself.
If it is true that, bound by the collective interaction
of its liberties, the
human social group can not escape from certain irreversible laws
of evolution, does this mean that, observed along its axis
of «greatest
complexity» (i.e. increasing liberty) the World is coiling upon itself with as much sureness as it is in other respects radiating outwards and explosively expanding?
At the summit
of material animal
evolution is a proto -
human, but the next stage
of complexity in brain function would be out
of kilter with the natural environment since it is now too powerful to be subject to the ULCD from the material environment alone.
Evolution's goal is an organ at the very limit
of the
complexity which matter can achieve: the
human brain.
The social brain hypothesis posits that social
complexity is the primary driver
of primate cognitive
complexity, and that social pressures ultimately led to the
evolution of the large
human brain.
Similarly, the origin
of haplorhine primates (tarsiers, monkeys, apes, and
humans) was associated with the
evolution of features supporting very high visual acuity (e.g., a retinal fovea, macula lutea, postorbital plate, small corneas relative to eye size, etc.) and a simultaneous reduction in the size and
complexity of the nasal fossa.