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I feel safe I forgive you go ahead Kathy

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let me know and I'll quit working on as

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you can see this is like autoclave

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number two very similar population of

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very small where I suspect the gel

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chronicles a couple of bubbles mixed in

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and I don't believe there's any lights

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here at this time let's switch the glove

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box camera day microscope camera happy

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they saw panse will ferrell we're

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receiving the microscope view now guys

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you can see without a uniform populated

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of what I suspect the job chronicles

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alright that's about it copy that fifty

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number seven is a gel we don't really

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need to switch to something else eight

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is also a jealous viscous 10 and 9 at

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gels 11 is still a gel at 12 is still a

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job and they all look pretty much the

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ok out the pictures that you sent back

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and the last run show us that the

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crystallites are much bigger and better

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than we expected and the grand

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scattering that we're getting is

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saturating the screen so we can't get a

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good reading of what the crystal

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structure is so the idea is to do a run

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again of some of the old samples with a

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lower aperture setting and also to try

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and modernize the samples and get

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smaller crystallites for our comparisons

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for what we get on the ground that's

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where we want to do why we changed

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procedures so we can do the samples that

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we've already run again we also want to

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see whether they've annealed and grown

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bigger and things like that because they

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just grown much better than we expected

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that's essentially the rationale and

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since the crystallites are much bigger

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we think we can get away with a shorter

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run for the averaging for the Bragg

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scattering sounds good to me and that's

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nice to hear that you get something

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unexpected that our positive a copy

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their beautiful pictures and beautiful

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and I'd like a question on a homogenous

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Asian precision we're now receiving live

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video downlink from inside the glove box

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facility the colloidal disorder order

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transition experiment or seedot is being

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performed in this glove box facility at

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the moment earlier in the mission this

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experiment was set up and at various

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times throughout the mission crew member

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set up cameras in the glove box facility

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in order to view the progress of the

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crystals that are growing in this

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we are now receiving live video downlink

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looking at the top view of the drop

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the experiment on the ground experiment

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team on the ground has the capability to

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view both of these experiment cameras

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simultaneously due to the high packed

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digital television technology

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the direction of the force being applied

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to the drop is from the top and the

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bottom this causes the drop to be

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squeezed or compressed in the center and

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causes the drop to elongate in a

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horizontal direction if you look at the

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top view of this drop on the left side

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of the screen you can see that there is

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very little change in the dimensions of

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the drop looking at the top however from

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the side looking from the side or the

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right-hand view the drop the drop

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continues to be compressed from the top

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and bottom directions with the vertical

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direction as kathy thornton continues to

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increase the strength of the acoustic

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force that is compressing the straw the

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width of the drop continues to become

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larger and the height continues to

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the experiment team for this experiment

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is looking we are receiving line video

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downlink from a brad camera that is

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located in the glove box facility this

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is used on the colloidal disorder order

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transition experiment this is an

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experiment that looks at glass spheres

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to look at how liquids form solids these

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glass spheres are used because the

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forces that act on these glass spheres

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are very simple and they can be used to

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model other materials that would have

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that would be composed of atoms these

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atoms would have a much more complicated

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force acting upon these atoms and

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therefore the interaction of the liquid

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and the solid would be much more

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difficult to understand so they use

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these glass fears in order to look at

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the transition that these glass fears go

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through when they change from a liquid

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the equipment seen here is part of an

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apparatus designed to help meet the

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needs of growing food and plant items in

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space alright now we're looking at some

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footage of a potato plant being grown

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aboard the space shuttle Columbia right

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now the special systems built into the

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astra culture equipment includes systems

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for the delivery of nutrients to the

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plants the modes for fluid flow and

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fluid delivery to the plants are

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different in the microgravity

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environment of space and the astra

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culture team has developed specialized

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equipment to help feed and water the

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potato plant we see growing here

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additionally they have developed

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subsystems which provide for the control

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of the humidity or the level of water in

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the air around the plant and also

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they've developed some special lighting

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systems which are very low power

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consumption lighting systems so that

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they're very efficient for use in the

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hot spell Columbia Huntsville go ahead

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hey Angie its mike la good morning

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listen I was wondering if we could get a

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head start on PA o event set up and be

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able to reconfigure some of the switches

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down here with the vest stand by LA and

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and payload specialist Fred Leslie he's

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taking a brief exercise break before his

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I'm so Claudia to be more specific what

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I wanted to do is take your DPM to

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source from the orbital 1 / I back to

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channel psych easy or we don't want to

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handle for some help copy that la and