Difference between revisions of "User:Jl587"

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Hello there.
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Hello there. I'm Justin Luo [JUS-tin LEW-o].
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<math>\mathbb{THIS~IS~A~COOL~FONT}</math>
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<math>\flat</math>
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<math>\vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv</math>
  
 
==Article==
 
==Article==
  
 
Alright, so here's the article I found:
 
Alright, so here's the article I found:
[http://www.sciencecodex.com/hydrogen_powers_important_nitrogentransforming_bacteria-140597 Hydrogen powers important nitrogen-transforming bacteria], Science Codex, updated 29 August 2014, accessed 12 September 2014 (Manage the nitrogen cycle
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[http://www.sciencecodex.com/hydrogen_powers_important_nitrogentransforming_bacteria-140597 Hydrogen powers important nitrogen-transforming bacteria], Science Codex, updated 29 August 2014, accessed 12 September 2014 (Manage the nitrogen cycle)
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Basically for a while people have thought that nitrite oxidizing bacteria have been relying mostly on nitrite as their source of energy, but scientists found that they also depend on hydrogen.  This helps with the Grand Challenge of managing the nitrogen cycle because to support the nitrite oxidizing bacteria, scientists know they can use hydrogen as an energy source, and this can help them manage the nitrogen cycle.
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==Homework 2==
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My favorite demonstration was the 3D drawing demonstration.  How can you not like something that's interactive and lets you draw cool vases?
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[[File:Vase4cool.jpg]]
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[[File:Vase5frisbee.jpg]]
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[[File:Vase7umbrella.jpg]]
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[[File:Vase9cool.jpg]]
  
Basically for a while people have thought that nitrite oxidizing bacteria have been relying mostly on nitrite as their source of energy, but scientists found that they also depend on hydrogen.  This helps with the Grand Challenge of managing the nitrogen cycle because to support the nitrite oxidizing bacteria, scientists know they can use hydrogen as an energy source.
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[[File:Vase10lamponatable.jpg]] <math> \leftarrow \textbf{IT'S~A~LAMP~ON~A~TABLE!!!~HOW~CAN~YOU~NOT~LIKE~THAT?!} </math>

Latest revision as of 03:23, 13 September 2014

Hello there. I'm Justin Luo [JUS-tin LEW-o].

\(\mathbb{THIS~IS~A~COOL~FONT}\)

\(\flat\)

\(\vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv \vdash \dashv\)

Article

Alright, so here's the article I found: Hydrogen powers important nitrogen-transforming bacteria, Science Codex, updated 29 August 2014, accessed 12 September 2014 (Manage the nitrogen cycle)

Basically for a while people have thought that nitrite oxidizing bacteria have been relying mostly on nitrite as their source of energy, but scientists found that they also depend on hydrogen. This helps with the Grand Challenge of managing the nitrogen cycle because to support the nitrite oxidizing bacteria, scientists know they can use hydrogen as an energy source, and this can help them manage the nitrogen cycle.

Homework 2

My favorite demonstration was the 3D drawing demonstration. How can you not like something that's interactive and lets you draw cool vases?

Vase4cool.jpg

Vase5frisbee.jpg

Vase7umbrella.jpg

Vase9cool.jpg

Vase10lamponatable.jpg \( \leftarrow \textbf{IT'S~A~LAMP~ON~A~TABLE!!!~HOW~CAN~YOU~NOT~LIKE~THAT?!} \)