absolute zero

It must be all of 5 above absolute zero there.

The air in the hold stood near the absolute zero of space.

Thus, even at absolute zero, the system still has a significant amount of energy.

It's only about the size of a house, but its heart is always kept at absolute zero.

And those which are work only at temperatures close to absolute zero.

We've talked a lot about four degrees above absolute zero.

What happens if you actually try and get down to absolute zero or even pass the other side?

Nor will they, no matter how close to absolute zero we take the temperature.

"Your cold room is down to almost absolute zero now.

What, just a fraction of a degree above absolute zero?

I do know why absolute zero, and all other extreme situations are so important.

It was the fact that I went from an absolute zero."

In the same way absolute zero is merely the absence of heat.

Long odds all the way around, but absolute zero on any other possibilities.

So let us say that there's a C-14 atom near absolute zero.

Near absolute zero, however, molecules have much less thermal energy.

Who, though, would want to dwell that far from the sun, in a cold close to absolute zero?

Sparks will not glow in the absolute zero of space.

Also, is there a evaporation point similar to absolute zero.

Air, at any temperature above absolute zero contains some heat.

The key was cold, as if it had been steeped in the absolute zero of.

Among their accomplishments was establishing a value for absolute zero.

Of course, for this to happen requires that the surroundings to be well above absolute zero.

We're at one millionth of a degree above absolute zero.

When you're frozen to four degrees above absolute zero, though, you have plenty of time.