A Quote by K. Eric Drexler

In my daily work, I work on very large, complex, distributed systems built out of many Python modules and packages. The focus is very similar to what you find, for example, in Java and, in general, in systems programming languages.

A doctrine-teaching, character-building university, the Brigham Young University is dedicated to the building of character and faith, for character is higher than intellect . . . . We are men of God first, men of letters second, men of science third, and noted men fourth, men of rectitude rather than academic competence. . . . Our academic training must be as impeccable as our lives.

...the story of a man who saw three fellows laying bricks at a new building: He approached the first and asked, What are you doing? Clearly irritated, the first man responded, What the heck do you think I'm doing? I'm laying these darn bricks! He then walked over to the second bricklayer and asked the same question. The second fellow responded, Oh, I'm making a living. He approached the third bricklayer with the same question, What are you doing? The third looked up, smiled and said, I'm building a cathedral. At the end of the day, who feels better about how he's spent his last eight hours?

However, it required some years before the scientific community in general accepted that flexibility and disorder are very relevant molecular properties also in other systems.

It turns out all molecular and biological systems have speeds of the atoms move inside them; the fastest possible speeds are determined by their molecular vibrations, and this speed is about a kilometre per second.

It is often said that the progression from simple to complex runs counter to the normal statistics of chance that are formalized in the Second Law of Thermodynamics. Strictly speaking, we could avoid this criticism simply by insisting that the Second Law does not apply to living systems in the environment in which we find them. For the Second Law applies only when there is no overall flow of energy into or out of a system, whereas all living systems are sustained by a net inflow of energy.

Contemporary Christianity, diverse and complex as we find it, actually may show more unanimity than the Christian churches of the first and second centuries. For nearly all Christians since that time, Catholics, Protestants, or Orthodox, have shared three basic premises. First, they accept the canon of the New Testament; second, they confess the apostolic creed; and third, they affirm specific forms of church institution. But every one of these - the canon of Scripture, the creed, and the institutional structure - emerged in its present form only toward the end of the second century.

If you like, there is a Guinness time. The reason for that it's fundamental. It is not that we have to keep shortening the time. It turns out all molecular and biological systems have speeds of the atoms move inside them, the fastest possible speeds are determined by their molecular vibrations and this speeds is about a kilometre per second.

If I ever reach heaven I expect to find three wonders there: first, to meet some I had not thought to see there; second, to miss some I had expected to see there; and third, the greatest wonder of all, to find myself there.

My first six months were in Japan; then I went to Mexico and then went back to Japan. I had the opportunity to wrestle all the wrestlers from the United States, Europe, and Japan when I was there.

I have to keep up with the scientific literature as part of my job, but increasingly I found myself reading things that weren't really relevant to my academic work, but were relevant to gardening.

I thought in my Nobel Lecture I pointed that I was delighted that the Swedish Academy of Science did not quote anything about my current work right now, because the current work that my group is focusing on is actually both the time resolve electrons and possibly x-rays to be able to get the architecture of these molecules, the molecular structures themselves, of very complex biological systems. That's the ultimate goal.

China is a great manufacturing center, but it's actually mostly an assembly plant. So it assembles parts and components, high technology that comes from the surrounding industrial - more advanced industrial centers - Japan, Taiwan, South Korea, Singapore, the United States, Europe - and it basically assembles them.

I believe that the military-industrial complex is more important than ever. This is because the war in Kosovo gave fresh impetus not to the military-industrial complex but to the military-scientific complex. You can see this in China.

The first word gives origin to the second, the first and second to the third, and the third to the fourth, and so on. You cannot begin with the second word.

Tamil Nadu has emerged as second only to Maharashtra in having most number of industrial units, first in number of workers, third in exports.