 Mr. President, why don't you show the President how this works? There's my desk bag. Mr. President, I'm a ceramic superconductor that sits within that area. At room temperature that's ceramic is an incident that's currently not left. And the focal length of that is 77 degrees Kelvin. That isolator will then turn into a superconductor. And there's as well a switch to light that side. First, superconductor the side. So we have a demonstration of 200 degrees. The temperature should be literally... That's water vapor. Light up. That's now carrying the current that is superconducting. And as long as it stays at that temperature, the current will stay there. The closest thing to infinity that we have. Thank you very much. Thank you, Mr. President. This demonstrates the other property of superconducting materials. I believe that when they become superconducting, they won't allow magnetic fields to penetrate them. So the little magnet that you see on top has a magnetic field which is repelled by the superconducting ceramic. So as long as the superconductor remains below the 77K, it will repel that magnet. It will float above it. Processes like these are the ones that I think will lead to levitating change. They can play with it. It sits up. Put it in your finger, whatever you want to do. I think I'm pretty careful. Freeze and it won't fall off. That's a little cold. You'll warm it up. But this illustrates what happens when you get up to 77K. Mr. President. Make toys. That's what a train is like. I thought I would give you a little souvenir. You can take it with you. That's the ceramic and that's the little magnet that you can float on top of. I'll show you one last experiment here, Mr. President. Perhaps if you could stand right here and look at this, I'll come around this way. This is something that I'm not sure. I can't fully convince Senator Baker that you should believe in. This is a superconducting quantum interference device. This is a truly quantum mechanical machine which detects magnetic fields very sensitively. This is the output of the magnetic field detection. And as you see, when I bring this magnet close to this sensor, which is in this flask of Wickwood Nitrogen, the superconducting dosage conjunctions there sense the very minute magnetic field from this permanent magnet way over here and change the phase of the output signal that moves across the screens. As sensitive as this is, the people who built this at the National Bureau of Standards had to desensitize it by a factor of 100 so that the variations in the Earth's magnetic field wouldn't overwhelm it. This can be used for everything from measuring microscopic electrical currents in the brain to looking for submarines that are underwater. It's a very general instrument. And someday I'll convince Senator Baker that quantum mechanics works. I think you've made the whole thing up. We're going back this way. Mr. President, now that Schultz and Shevronatze are going to meet, would you be very optimistic about a treaty? I'm always optimistic about that. Sir, would you consider giving Judge Bork a recess appointment while the Senate's out on vacation? Sir, do you really think some reporters are out to destroy you? Don't tip me. We think that was your statement yesterday, not Marlowe's. Who turned off the lights? There's a couple of Marlowe's to be trusted. Last week, the Soviet Union had insisted on what could have been a major stumbling block to our double zero suggestion that we had right to retain some of its missiles currently deployed in Asia. But last Wednesday, General Secretary Gorbachev announced that he was preparing to drop this demand, with as many as... Presidents aren't allowed the same lesson. I believe it's been less than one year since we first heard news of the startling breakthrough in superconductivity by two scientists at the IBM labs in Zurich. And since then, it seems as if the papers have been struggling to keep up with the rapid advance of Dr. Kelle's escape. It has been said that there are three stages of reaction to any new idea. One, the veterans in the history of the past. But since that time, we've built for something entirely new, a history in which Thomas Jefferson would have felt more at home. They must bridge the gap in the lab we've already delivered. It must make the transition from a scientific and online to a everyday reality, from a specialty item to a commodity. And that's why we're at the limits of it. We also want to see how we in government can do on top in helping this process along. Now, I have to confess that I'm one of those between American and Americans. The way to do it is through protectionist trade legislation that poses markets and throws people on the work. One good place to start is bringing antitrust laws up to speed with the modern world. This is no longer the insured of the college. It is a fundamental role that not only looks forward to the 21st century, but hearts back to the first principles enunciated by a constitution 200 years ago set for an integrated circuit. The value of silicon chip does apply in the sand from which it comes, but in the microscopic architecture engraved upon it by ingenious human mind a new invention or small business. What are the creators of our economic life whose contributions may not only delight the mind, but improve the condition of man by feeding the poor with new grades, bringing hope to the set of new cures, vanishing ignorance with wondrous new information technologies. When I first saw it, I wrote guarantees of rights, liberty, and justice.