Biological Computing Personality Type, MBTI
What is the personality type of Biological Computing? Which MBTI personality type best fits? Personality type for Biological Computing from Fields Of Study and what is the personality traits.
INTP (XwX)
Biological Computing personality type is INTJ, which is the opposite of ENFP, and they are more likely to be introverted and more likely to be a Thinking type than an extravert.
Biological Computers are not commonly known as introverts. They may be less extroverted than some of the other intelligence types, but they are no less energized by participating in group activities.
The biological digital’s love of understanding the world around them is expressed through many of their behaviors and attitudes. They are highly analytical, methodical and logical. They are keen observers, often taking in all the details of something and then using their intellect to help them understand it. Biology digital’s enjoy seeing patterns, discovering relationships and discovering new ideas and insights.
They tend to see the world in black and white. Either something is good or bad, right or wrong. They often have a hard time finding gray areas or accepting things that might be shades of gray.
Biological Computers often have a passion for science, math or engineering. They love to see how things work, why things work and how things can be improved or changed.
ENFP Highly Sensitive People
Biological computers use biologically derived molecules — such as DNA and proteins — to perform digital or real computations.
The development of biocomputers has been made possible by the expanding new science of nanobiotechnology. The term nanobiotechnology can be defined in multiple ways; in a more general sense, nanobiotechnology can be defined as any type of technology that uses both nano-scale materials (i.e. materials having characteristic dimensions of 1-100 nanometers) and biologically based materials. A more restrictive definition views nanobiotechnology more specifically as the design and engineering of proteins that can then be assembled into larger, functional structures The implementation of nanobiotechnology, as defined in this narrower sense, provides scientists with the ability to engineer biomolecular systems specifically so that they interact in a fashion that can ultimately result in the computational functionality of a computer.
