Liquid in sentence

592 examples of Liquid in a sentence

Bubbles of vapor form inside the water, then they expand, turning liquid into gas.

Now, the beauty of a soup is that because it is soup, you can agitate it and make those nuclei be distributed homogeneously in the liquid, so that now by looking under the microscope at just four or five samples of this homogeneous solution, you can count nuclei, and therefore tell how many cells that brain had.

There's air flowing through the top channel, and then we flow a liquid that contains nutrients through the blood channel.

So it's a big problem, and it's tied in with the needle and syringe because it's a liquid form vaccine, and when it's liquid it needs the refrigeration.

It’s one of thousands of animal species, like frogs, jellyfish, salamanders, and snakes, that use toxic chemicals to defend themselves – in this case, by spewing poisonous liquid from glands in its abdomen.

After two minutes, those solid rockets explode off and then you just have the liquid engines, the hydrogen and oxygen, and it's as if you're in a dragster with your foot to the floor and accelerating like you've never accelerated.

Using the liquid-based approach to do this, you take this high surface area packing material, you fill the contactor with the packing material, you use pumps to distribute liquid across the packing material, and you can use fans, as you can see in the front, to bubble the air through the liquid.

The CO2 in the air is separated [by] the liquid by reacting with the really strong-binding CO2 molecules in solution.

If you were to take that very expensive CO2 and convert it to a liquid fuel, that comes out to 50 dollars a gallon.

It could be liquid fuels, plastics or even synthetic gravel.

Our dependence on liquid fuels makes these emissions really difficult to avoid.

Now, in MTF, what you want to do is you take a big vat and you fill that with liquid metal, and you spin the liquid metal to open a vortex in the center, a bit like your sink.

And then you have some pistons driven by pressure that goes on the outside, and this compresses the liquid metal around the plasma, and it compresses it, it gets hotter, like a laser, and then it makes fusion.

The liquid metal absorbs all the neutrons and no neutrons hit the wall, and therefore there's no damage to the machine.

The liquid metal gets hot, so you can pump that in a heat exchanger, make some steam, spin a turbine.

So we accelerate the pistons with steam, that takes a little bit of time, but then, bang! you hit the piston, and, baff!, all the energy is done instantly, down instantly to the liquid, and that compresses the plasma much faster.

So it's going to be a big machine, about three meters in diameter, liquid lead spinning around, big vortex in the center, put the plasma on the top and on the bottom, piston hits on the side, bang!, it compresses it, and it will make some energy, and the neutron will come out in the liquid metal, going to go in a steam engine and make the turbine, and some of the steam will go back to fire the piston.

Then we built a small sphere, about this big, 14 pistons around it, and this will compress the liquid.

That’s 395 million times colder than your refrigerator, 100 million times colder than liquid nitrogen, and 4 million times colder than outer space.

At the center, where the beams intersect, the atoms move sluggishly, as if trapped in a thick liquid — an effect the researchers who invented it described as “optical molasses.”

Then, a video driver program transmits this information to the millions of liquid crystals in your screen to make all the different hues you see now.

We need a terrestrial planet in that just right "Goldilocks zone," where water flows as a liquid.

Light can take a resin and convert it to a solid, can convert a liquid to a solid.

In addition, it has a stage that will lower into the puddle and pull the object out of the liquid.

This dead zone is on the order of tens of microns thick, so that's two or three diameters of a red blood cell, right at the window interface that remains a liquid, and we pull this object up, and as we talked about in a Science paper, as we change the oxygen content, we can change the dead zone thickness.

In addition, as our ability to deliver liquid to that interface, we can go 1,000 times faster I believe, and that in fact opens up the opportunity for generating a lot of heat, and as a chemical engineer, I get very excited at heat transfer and the idea that we might one day have water-cooled 3D printers, because they're going so fast.

We think the surface is hot enough to melt rock and has liquid lava lakes.

Well, we shine a very powerful but super-tiny laser beam onto the membrane of HIV-infected cells while these cells are immersed in liquid containing the drug.

I like to think of synthetic biology as liquid alchemy, only instead of transmuting precious metals, you're synthesizing new biological functionality inside very small channels.

We 3D-printed our own channels in order to control the flow of these liquid bacterial cultures.

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