MC Chem Wiki - User contributions [en]

Laser Etched Periodic Table

2018-05-09T17:20:05Z

Brandiyoder:

== Chemistry Department Periodic Table of Elements ==

This wiki page will be used as a centralized means of keeping track of the progress made on our periodic table.

=== Instructions for Using the Laser ===

Step 1. Turn on laser by turning on the power strip to the left of the laser. You will be able to tell if it is on. You may want to turn on the emergency exhaust for the adjacent fume hood while the laser is in use.

Step 2. While the laser is initializing, log onto the computer.

Step 3. Click on the RetinaEngrave3D program. Click on the Generation 5 Hobby 20x12" laser.

Step 4. Home the laser by pressing the home button on the laser.

[[File:LaserInstructionsHome.png|400px]]

Step 5. Put a piece of wood in the engraving area so that it is laying flat. Use the arrow buttons on the laser to move the guide laser (red dot) to the point that you would like the laser to begin at. Focus the laser for this thickness of material.

Step 6. Open the Element Template Document, located below. Go to the page containing the element that you would like to print, then hit CTRL+P to print.

***Note: Some elements in the template have the atomic mass to the thousandths place... Please change this to the hundredths place before you print so we can stay consistent in our elements!***

[[:File:Elements_Template.docx]]

Step 7. Ensure that you select "Full Spectrum Engineering Driver" as your printer and change the print setting to print only the current page.

Step 8. Click on the RetinaEngrave3D program. You should see that your element has loaded. Click on the Vector Cut tab. Click on the box outlining the element and change it to a color that is not black.

[[File:laseerinstruct.PNG|400px]]

Step 9. On the right-hand side, you should see options under "Vector Layers" for two colors: the color of the box and the color of the rest of the element. Change the Number of Passes for the Black Color to 0 and the Speed for the Yellow Color to 15. Leave the remaining settings alone.

[[File:Laserinstruct copy.png|400px]]

Step 10. Still on the right-hand side, you should see an option for "Raster Speed". Change this to 50.

[[File:updatelaserin.png|400px]]

Step 11. Towards the top-middle portion of the screen, you should see an option called Vector Mode. Change this to Raster then Vector. You should also change the resolution to 1000x1000 dpi.

[[File:laserinstructions.PNG|400px]]

Step 12. Hit the Start Job button. (This looks like a play button.) The laser should start engraving your wood! Keep an eye on the laser while it is engraving, as there is a potential fire risk whenever we engrave.

[[File:laserinstructions2.png|400px]]

Step 13. Enjoy your newly engraved element! If you are finished engraving, turn off the laser. If not, you can repeat the process beginning with step 5.

===Element Assignment===

Feel free to edit this section and type your name next to the element that you have contributed to our periodic table.

1 Hydrogen H '''- Brandon Allen'''

2 Helium He '''- Brandon Allen'''

3 Lithium Li '''- Brandon Allen'''

4 Beryllium Be '''- Brandon Allen'''

5 Boron B '''- Brandon Allen'''

6 Carbon C '''- Brandon Allen'''

7 Nitrogen N '''- Brandon Allen'''

8 Oxygen O '''- Brandon Allen'''

9 Fluorine F '''- Rachel Book'''

10 Neon Ne '''- Brandon Allen'''

11 Sodium Na '''- Brandon Allen'''

12 Magnesium Mg '''- Brandon Allen'''

13 Aluminum Al '''- Brandon Allen'''

14 Silicon Si '''- Brandon Allen'''

15 Phosphorus P '''- Brandon Allen'''

16 Sulfur S '''- Brandon Allen'''

17 Chlorine Cl '''- Brandon Allen'''

18 Argon Ar '''- Brandon Allen'''

19 Potassium K '''- Brandon Allen'''

20 Calcium Ca '''- Brandon Allen'''

21 Scandium Sc '''- Rachel Book'''

22 Titanium Ti '''- Rachel Book'''

23 Vanadium V '''- Brandon Allen'''

24 Chromium Cr '''- Rachel Book-REDO'''

25 Manganese Mn '''- Brandon Allen'''

26 Iron Fe '''- Brandon Allen'''

27 Cobalt Co '''- Antonetta Axup'''

28 Nickel Ni'''- Rachel Book'''

29 Copper Cu'''- Rachel Book'''

30 Zinc Zn '''Mohammad'''

31 Gallium Ga

32 Germanium Ge '''Seth Croslow'''

33 Arsenic As '''Seth Croslow

34 Selenium Se '''- Selene H'''

35 Bromine Br '''- Brandi Yoder'''

36 Krypton Kr

37 Rubidium Rb '''-Emily claims, will do'''

38 Strontium Sr '''Seth Croslow'''

39 Yttrium Y '''- Brandi Yoder'''

40 Zirconium Zr '''- Rachel Book'''

41 Niobium Nb '''- Rachel Book'''

42 Molybdenum Mo '''- Antonetta Axup'''

43 Technetium Tc '''- Rachel Book'''

44 Ruthenium Ru '''- Rachel Book'''

45 Rhodium Rh'''- Rachel Book'''

46 Palladium Pd'''- Rachel Book'''

47 Silver Ag'''- Rachel Book'''

48 Cadmium Cd'''- Rachel Book'''

49 Indium In

50 Tin Sn

51 Antimony Sb '''- Antonetta Axup'''

52 Tellurium Te '''- Emily Currens'''

53 Iodine I '''- Brandi Yoder'''

54 Xenon Xe

55 Cesium Cs '''- Emily claims, will do'''

56 Barium Ba '''- Laura Sanchez'''

57 Lanthanum La '''- Rachel Book'''

58 Cerium Ce

59 Praseodymium Pr

60 Neodymium Nd '''-Brandi Yoder'''

61 Promethium Pm

62 Samarium Sm

63 Europium Eu

64 Gadolinium Gd

65 Terbium Tb

66 Dysprosium Dy

67 Holmium Ho '''- Antonetta Axup'''

68 Erbium Er

69 Thulium Tm

70 Ytterbium Yb '''- Brandi Yoder'''

71 Lutetium Lu

72 Hafnium Hf '''- Rachel Book'''

73 Tantalum Ta '''- Rachel Book'''

74 Tungsten W '''- Rachel Book'''

75 Rhenium Re'''- Antonetta Axup'''

76 Osmium Os'''- Antonetta Axup'''

77 Iridium Ir

78 Platinum Pt '''- Laura Sanchez'''

79 Gold Au'''- Brittney Book'''

80 Mercury Hg

81 Thallium Tl

82 Lead Pb

83 Bismuth Bi

84 Polonium Po'''- Antonetta Axup'''

85 Astatine At '''- Rachel Will Do'''

86 Radon Rn

87 Francium Fr '''-Emily claims, will do"

88 Radium Ra '''-Brandi Yoder'''

89 Actinium Ac

90 Thorium Th'''- Antonetta Axup'''

91 Protactinium Pa

92 Uranium U '''- Laura Sanchez'''

93 Neptunium Np '''- Laura Sanchez'''

94 Plutonium Pu '''-Emily Currens'''

95 Americium Am '''-Emily Currens'''

96 Curium Cm

97 Berkelium Bk

98 Californium Cf

99 Einsteinium Es

100 Fermium Fm

101 Mendelevium Md

102 Nobelium No

103 Lawrencium Lr

104 Rutherfordium Rf

105 Dubnium Db

106 Seaborgium Sg

107 Bohrium Bh

108 Hassium Hs

109 Meitnerium Mt

110 Darmstadtium Ds

111 Roentgenium Rg

112 Copernicium Cn

113 Nihonium Nh

114 Flerovium Fl

115 Moscovium Mc

116 Livermorium Lv

117 Tennessine Ts '''- Rachel Will Do'''

118 Oganesson Og

Laser Etched Periodic Table

2018-05-02T18:17:38Z

Brandiyoder:

== Chemistry Department Periodic Table of Elements ==

This wiki page will be used as a centralized means of keeping track of the progress made on our periodic table.

=== Instructions for Using the Laser ===

Step 1. Turn on laser by turning on the power strip to the left of the laser. You will be able to tell if it is on. You may want to turn on the emergency exhaust for the adjacent fume hood while the laser is in use.

Step 2. While the laser is initializing, log onto the computer.

Step 3. Click on the RetinaEngrave3D program. Click on the Generation 5 Hobby 20x12" laser.

Step 4. Home the laser by pressing the home button on the laser.

[[File:LaserInstructionsHome.png|400px]]

Step 5. Put a piece of wood in the engraving area so that it is laying flat. Use the arrow buttons on the laser to move the guide laser (red dot) to the point that you would like the laser to begin at. Focus the laser for this thickness of material.

Step 6. Open the Element Template Document, located below. Go to the page containing the element that you would like to print, then hit CTRL+P to print.

***Note: Some elements in the template have the atomic mass to the thousandths place... Please change this to the hundredths place before you print so we can stay consistent in our elements!***

[[:File:Elements_Template.docx]]

Step 7. Ensure that you select "Full Spectrum Engineering Driver" as your printer and change the print setting to print only the current page.

Step 8. Click on the RetinaEngrave3D program. You should see that your element has loaded. Click on the Vector Cut tab. Click on the box outlining the element and change it to a color that is not black.

[[File:laseerinstruct.PNG|400px]]

Step 9. On the right-hand side, you should see options under "Vector Layers" for two colors: the color of the box and the color of the rest of the element. Change the Number of Passes for the Black Color to 0 and the Speed for the Yellow Color to 15. Leave the remaining settings alone.

[[File:Laserinstruct copy.png|400px]]

Step 10. Still on the right-hand side, you should see an option for "Raster Speed". Change this to 50.

[[File:updatelaserin.png|400px]]

Step 11. Towards the top-middle portion of the screen, you should see an option called Vector Mode. Change this to Raster then Vector. You should also change the resolution to 1000x1000 dpi.

[[File:laserinstructions.PNG|400px]]

Step 12. Hit the Start Job button. (This looks like a play button.) The laser should start engraving your wood! Keep an eye on the laser while it is engraving, as there is a potential fire risk whenever we engrave.

[[File:laserinstructions2.png|400px]]

Step 13. Enjoy your newly engraved element! If you are finished engraving, turn off the laser. If not, you can repeat the process beginning with step 5.

===Element Assignment===

Feel free to edit this section and type your name next to the element that you have contributed to our periodic table.

1 Hydrogen H '''- Brandon Allen'''

2 Helium He '''- Brandon Allen'''

3 Lithium Li '''- Brandon Allen'''

4 Beryllium Be '''- Brandon Allen'''

5 Boron B '''- Brandon Allen'''

6 Carbon C '''- Brandon Allen'''

7 Nitrogen N '''- Brandon Allen'''

8 Oxygen O '''- Brandon Allen'''

9 Fluorine F '''- Rachel Book'''

10 Neon Ne '''- Brandon Allen'''

11 Sodium Na '''- Brandon Allen'''

12 Magnesium Mg '''- Brandon Allen'''

13 Aluminum Al '''- Brandon Allen'''

14 Silicon Si '''- Brandon Allen'''

15 Phosphorus P '''- Brandon Allen'''

16 Sulfur S '''- Brandon Allen'''

17 Chlorine Cl '''- Brandon Allen'''

18 Argon Ar '''- Brandon Allen'''

19 Potassium K '''- Brandon Allen'''

20 Calcium Ca '''- Brandon Allen'''

21 Scandium Sc '''- Rachel Book'''

22 Titanium Ti '''- Rachel Book'''

23 Vanadium V '''- Brandon Allen'''

24 Chromium Cr '''- Rachel Book-REDO'''

25 Manganese Mn '''- Brandon Allen'''

26 Iron Fe '''- Brandon Allen'''

27 Cobalt Co '''- Antonetta Axup'''

28 Nickel Ni'''- Rachel Book'''

29 Copper Cu'''- Rachel Book'''

30 Zinc Zn '''Mohammad'''

31 Gallium Ga

32 Germanium Ge '''Seth Croslow'''

33 Arsenic As '''Seth Croslow

34 Selenium Se '''- Selene H'''

35 Bromine Br '''- Brandi Yoder'''

36 Krypton Kr

37 Rubidium Rb '''-Emily claims, will do'''

38 Strontium Sr '''Seth Croslow'''

39 Yttrium Y '''- Brandi Yoder'''

40 Zirconium Zr '''- Rachel Book'''

41 Niobium Nb '''- Rachel Book'''

42 Molybdenum Mo '''- Antonetta Axup'''

43 Technetium Tc '''- Rachel Book'''

44 Ruthenium Ru '''- Rachel Book'''

45 Rhodium Rh'''- Rachel Book'''

46 Palladium Pd'''- Rachel Book'''

47 Silver Ag'''- Rachel Book'''

48 Cadmium Cd'''- Rachel Book'''

49 Indium In

50 Tin Sn

51 Antimony Sb '''- Antonetta Axup'''

52 Tellurium Te '''- Emily Currens'''

53 Iodine I '''- Brandi Yoder'''

54 Xenon Xe

55 Cesium Cs '''- Emily claims, will do'''

56 Barium Ba '''- Laura Sanchez'''

57 Lanthanum La '''- Rachel Book'''

58 Cerium Ce

59 Praseodymium Pr

60 Neodymium Nd '''-Brandi Yoder'''

61 Promethium Pm

62 Samarium Sm

63 Europium Eu

64 Gadolinium Gd

65 Terbium Tb

66 Dysprosium Dy

67 Holmium Ho '''- Antonetta Axup'''

68 Erbium Er

69 Thulium Tm

70 Ytterbium Yb '''- Brandi claims, will do'''

71 Lutetium Lu

72 Hafnium Hf '''- Rachel Book'''

73 Tantalum Ta '''- Rachel Book'''

74 Tungsten W '''- Rachel Book'''

75 Rhenium Re'''- Antonetta Axup'''

76 Osmium Os'''- Antonetta Axup'''

77 Iridium Ir

78 Platinum Pt '''- Laura Sanchez'''

79 Gold Au'''- Brittney Book'''

80 Mercury Hg

81 Thallium Tl

82 Lead Pb

83 Bismuth Bi

84 Polonium Po'''- Antonetta Axup'''

85 Astatine At '''- Rachel Will Do'''

86 Radon Rn

87 Francium Fr '''-Emily claims, will do"

88 Radium Ra '''-Brandi Yoder'''

89 Actinium Ac

90 Thorium Th

91 Protactinium Pa

92 Uranium U '''- Laura Sanchez'''

93 Neptunium Np '''- Laura Sanchez'''

94 Plutonium Pu '''-Emily Currens'''

95 Americium Am '''-Emily Currens'''

96 Curium Cm

97 Berkelium Bk

98 Californium Cf

99 Einsteinium Es

100 Fermium Fm

101 Mendelevium Md

102 Nobelium No

103 Lawrencium Lr

104 Rutherfordium Rf

105 Dubnium Db

106 Seaborgium Sg

107 Bohrium Bh

108 Hassium Hs

109 Meitnerium Mt

110 Darmstadtium Ds

111 Roentgenium Rg

112 Copernicium Cn

113 Nihonium Nh

114 Flerovium Fl

115 Moscovium Mc

116 Livermorium Lv

117 Tennessine Ts '''- Rachel Will Do'''

118 Oganesson Og

Laser Etched Periodic Table

2018-04-09T19:38:36Z

Brandiyoder:

== Chemistry Department Periodic Table of Elements ==

This wiki page will be used as a centralized means of keeping track of the progress made on our periodic table.

=== Instructions for Using the Laser ===

Step 1. Turn on laser by turning on the power strip to the left of the laser. You will be able to tell if it is on. You may want to turn on the emergency exhaust for the adjacent fume hood while the laser is in use.

Step 2. While the laser is initializing, log onto the computer.

Step 3. Click on the RetinaEngrave3D program. Click on the Generation 5 Hobby 20x12" laser.

Step 4. Home the laser by pressing the home button on the laser.

[[File:LaserInstructionsHome.png|400px]]

Step 5. Put a piece of wood in the engraving area so that it is laying flat. Use the arrow buttons on the laser to move the guide laser (red dot) to the point that you would like the laser to begin at. Focus the laser for this thickness of material.

Step 6. Open the Element Template Document, located below. Go to the page containing the element that you would like to print, then hit CTRL+P to print.

[[:File:Elements_Template.docx]]

Step 7. Ensure that you select "Full Spectrum Engineering Driver" as your printer and change the print setting to print only the current page.

Step 8. Click on the RetinaEngrave3D program. You should see that your element has loaded. Click on the Vector Cut tab. Click on the box outlining the element and change it to a color that is not black.

[[File:laseerinstruct.PNG|400px]]

Step 9. On the right-hand side, you should see options under "Vector Layers" for two colors: the color of the box and the color of the rest of the element. Change the Number of Passes for the Black Color to 0 and the Speed for the Yellow Color to 15. Leave the remaining settings alone.

[[File:Laserinstruct copy.png|400px]]

Step 10. Still on the right-hand side, you should see an option for "Raster Speed". Change this to 50.

[[File:PeriodicTableInstruc_0043.jpg|400px]]

Step 11. Towards the top-middle portion of the screen, you should see an option called Vector Mode. Change this to Raster then Vector. You should also change the resolution to 1000x1000 dpi.

[[File:laserinstructions.PNG|400px]]

Step 12. Hit the Start Job button. (This looks like a play button.) The laser should start engraving your wood! Keep an eye on the laser while it is engraving, as there is a potential fire risk whenever we engrave.

[[File:laserinstructions2.png|400px]]

Step 13. Enjoy your newly engraved element! If you are finished engraving, turn off the laser. If not, you can repeat the process beginning with step 5.

===Element Assignment===

Feel free to edit this section and type your name next to the element that you have contributed to our periodic table.

1 Hydrogen H '''- Brandon Allen'''

2 Helium He '''- Brandon Allen'''

3 Lithium Li '''- Brandon Allen'''

4 Beryllium Be '''- Brandon Allen'''

5 Boron B '''- Brandon Allen'''

6 Carbon C '''- Brandi Yoder'''

7 Nitrogen N '''- Brandon Allen'''

8 Oxygen O '''- Brandon Allen'''

9 Fluorine F '''- Brandon Allen'''

10 Neon Ne '''- Brandon Allen'''

11 Sodium Na '''- Brandon Allen'''

12 Magnesium Mg '''- Brandon Allen'''

13 Aluminum Al '''- Brandon Allen'''

14 Silicon Si '''- Brandon Allen'''

15 Phosphorus P '''- Brandon Allen'''

16 Sulfur S '''- Brandon Allen'''

17 Chlorine Cl '''- Brandon Allen'''

18 Argon Ar '''- Brandon Allen'''

19 Potassium K '''- Brandon Allen'''

20 Calcium Ca '''- Brandon Allen'''

21 Scandium Sc '''- Brandon Allen'''

22 Titanium Ti

23 Vanadium V

24 Chromium Cr

25 Manganese Mn

26 Iron Fe

27 Cobalt Co

28 Nickel Ni

29 Copper Cu

30 Zinc Zn

31 Gallium Ga

32 Germanium Ge

33 Arsenic As

34 Selenium Se

35 Bromine Br - '''Brandi Yoder'''

36 Krypton Kr

37 Rubidium Rb

38 Strontium Sr

39 Yttrium Y - '''Brandi Yoder'''

40 Zirconium Zr

41 Niobium Nb

42 Molybdenum Mo

43 Technetium Tc

44 Ruthenium Ru

45 Rhodium Rh

46 Palladium Pd

47 Silver Ag

48 Cadmium Cd

49 Indium In

50 Tin Sn

51 Antimony Sb

52 Tellurium Te

53 Iodine I

54 Xenon Xe

55 Cesium Cs

56 Barium Ba

57 Lanthanum La

58 Cerium Ce

59 Praseodymium Pr

60 Neodymium Nd

61 Promethium Pm

62 Samarium Sm

63 Europium Eu

64 Gadolinium Gd

65 Terbium Tb

66 Dysprosium Dy

67 Holmium Ho

68 Erbium Er

69 Thulium Tm

70 Ytterbium Yb

71 Lutetium Lu

72 Hafnium Hf

73 Tantalum Ta

74 Tungsten W

75 Rhenium Re

76 Osmium Os

77 Iridium Ir

78 Platinum Pt

79 Gold Au'''- Brittney Book'''

80 Mercury Hg

81 Thallium Tl

82 Lead Pb

83 Bismuth Bi

84 Polonium Po

85 Astatine At

86 Radon Rn

87 Francium Fr

88 Radium Ra

89 Actinium Ac

90 Thorium Th

91 Protactinium Pa

92 Uranium U - '''Laura Sanchez'''

93 Neptunium Np

94 Plutonium Pu

95 Americium Am

96 Curium Cm

97 Berkelium Bk

98 Californium Cf

99 Einsteinium Es

100 Fermium Fm

101 Mendelevium Md

102 Nobelium No

103 Lawrencium Lr

104 Rutherfordium Rf

105 Dubnium Db

106 Seaborgium Sg

107 Bohrium Bh

108 Hassium Hs

109 Meitnerium Mt

110 Darmstadtium Ds

111 Roentgenium Rg

112 Ununbium Uub

113 Ununtrium Uut

114 Ununquadium Uuq

115 Ununpentium Uup

116 Ununhexium Uuh

117 Ununseptium Uus

118 Ununoctium Uuo

UV Spectra of Sunscreen

2018-02-01T22:53:33Z

Brandiyoder:

By Brandi Yoder

The sun can be incredibly harmful to the skin, not just with painful burns, but the damage that can be done to DNA by the UV rays. This damage can lead to cancers, including melanoma, which affected 34,940 women and 52,170 men in 2017. Sunscreen can greatly reduce the risk of skin damage, but which sunscreen should the consumer use?

Sunscreen comes in different strengths, which are called ''SPF'', or ''sun protection factor''. It is reasonable to assume that with the higher SPF, the consumer will be protected from more of the UV spectrum, and will therefore have less of a chance of receiving DNA damage. In this experiment, sunscreen of varying SPF were applied to a quartz slide and the UV spectra were obtained.

Sources:
American Cancer Society, Facts & Figures 2017.

UV Spectra of Sunscreen

2018-02-01T22:53:01Z

Brandiyoder:

By Brandi Yoder

The sun can be incredibly harmful to the skin, not just with painful burns, but the damage that can be done to DNA by the UV rays. This damage can lead to cancers, including melanoma, which affected 34,940 women and 52,170 men in 2017. Sunscreen can greatly reduce the risk of skin damage, but which sunscreen should the consumer use?
Sunscreen comes in different strengths, which are called ''SPF'', or ''sun protection factor''. It is reasonable to assume that with the higher SPF, the consumer will be protected from more of the UV spectrum, and will therefore have less of a chance of receiving DNA damage. In this experiment, sunscreen of varying SPF were applied to a quartz slide and the UV spectra were obtained.

Sources:
American Cancer Society, Facts & Figures 2017.

UV Spectra of Sunscreen

2018-02-01T22:38:03Z

Brandiyoder: Created page with "By Brandi Yoder The sun can be incredibly harmful to the skin, not just with painful burns, but also"

By Brandi Yoder

The sun can be incredibly harmful to the skin, not just with painful burns, but also

Phosphoric Acid Acid Dissolution

2017-09-21T22:03:03Z

Brandiyoder: Created page with ":File:video-1506030888.mp4 Selene, Brittney, Brandi"

[[:File:video-1506030888.mp4]]

Selene, Brittney, Brandi

File:Video-1506030888.mp4

2017-09-21T22:02:34Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

BXYoder Fall 2017

2017-09-11T19:52:44Z

Brandiyoder: Created page with "Chemistry Research 430 :Fall 2017 :Senior Biochemistry Major ==Research Times== Monday 1-5 PM : CHEM 430-01 = 0.25 credit = 4 hours per week. ==Proposed Research Project== =..."

Chemistry Research 430
:Fall 2017
:Senior Biochemistry Major

==Research Times==
Monday 1-5 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Designing a Model Cell Membrane to Examine the Effects of Nanoparticles in Our Skin===

===General Information===
:Advisor: Audra Sostarecz
:Other research student collaborators:
:Other Research Collaborators:

===Proposed Project Description (PPD)===

===Instruments to be used: Langmuir Monolayer Trough, Fluorimeter===

===References (2 minimum)===
Molecular Dynamics Simulation of Skin Lipids: Effect of Ceramide Chain Lengths on Bilayer Properties
Rakesh Gupta, Balarama Sridhar Dwadasi, and Beena Rai
The Journal of Physical Chemistry B 2016 120 (49), 12536-12546.

Wertz, P. W. (2000). Lipids and barrier function of the skin. Acta Dermato-Venereologica, 807-11.

===Research pledge===
I, Brandi Yoder, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Brandi Thermal Images

2017-09-10T21:40:55Z

Brandiyoder:

[[File:21585625_1556583077740995_642302415_o.jpg|200px]]
[[File:21553122_1556583321074304_2020923104_n.jpg|200px]]
[[File:21584800_1556583397740963_1662038848_n.jpg|200px]]
[[File:21584718_1556583137740989_1385461073_n.jpg|200px]]
[[File:21584608_1556583084407661_919433176_n.jpg|200px]]

Pictures of the hood during AA use at 10:01AM (pictures 1-3). Picture 4 is taken 15 minutes after shutoff at 10:16AM and picture 5 is taken 32 minutes after shutoff, at 10:33AM.

[[File:21616601_1556583037740999_1685836241_o.jpg|200px]]
[[File:21586184_1556583021074334_629082848_n.jpg|200px]]
[[File:21584613_1556582991074337_1339173971_n.jpg|200px]]
[[File:21584643_1556582911074345_854020383_n.jpg|200px]]
[[File:21584554_1556582941074342_1831434249_n.jpg|200px]]
[[File:21624235_1556598931072743_2086268122_n.jpg|200px]]

Pictures of baking soda and vinegar reaction, where an increased amount of vinegar was used for tubes going from left to right. The high temperature on the balloons is due to handling, but the balloons did show a decrease in temperature as the reaction progressed. The reaction occurred within one minute, all pictures were taken at 10:44AM.

File:21624235 1556598931072743 2086268122 n.jpg

2017-09-10T21:39:56Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

File:21616601 1556583037740999 1685836241 o.jpg

2017-09-10T21:30:22Z

Brandiyoder: File uploaded with MsUpload

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File:21586184 1556583021074334 629082848 n.jpg

2017-09-10T21:29:28Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

File:21585625 1556583077740995 642302415 o.jpg

2017-09-10T21:29:03Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

File:21584800 1556583397740963 1662038848 n.jpg

2017-09-10T21:28:09Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

Brandi Thermal Images

2017-09-10T21:25:48Z

Brandiyoder:

[[File:21553122_1556583321074304_2020923104_n.jpg|400px]]
[[File:21584718_1556583137740989_1385461073_n.jpg|400px]]
[[File:21584643_1556582911074345_854020383_n.jpg|400px]]
[[File:21584613_1556582991074337_1339173971_n.jpg|400px]]
[[File:21584608_1556583084407661_919433176_n.jpg|400px]]
[[File:21584554_1556582941074342_1831434249_n.jpg|400px]]

Brandi Thermal Images

2017-09-10T21:24:29Z

Brandiyoder:

[[File:21584718_1556583137740989_1385461073_n.jpg|400px]]
[[File:21584643_1556582911074345_854020383_n.jpg|400px]]
[[File:21584613_1556582991074337_1339173971_n.jpg|400px]]
[[File:21584608_1556583084407661_919433176_n.jpg|400px]]
[[File:21584554_1556582941074342_1831434249_n.jpg|400px]]
[[File:21553122_1556583321074304_2020923104_n.jpg|400px]]

File:21584718 1556583137740989 1385461073 n.jpg

2017-09-10T21:24:13Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

Brandi Thermal Images

2017-09-10T21:23:49Z

Brandiyoder:

[[File:21584643_1556582911074345_854020383_n.jpg|400px]]
[[File:21584613_1556582991074337_1339173971_n.jpg|400px]]
[[File:21584608_1556583084407661_919433176_n.jpg|400px]]
[[File:21584554_1556582941074342_1831434249_n.jpg|400px]]
[[File:21553122_1556583321074304_2020923104_n.jpg|400px]]

File:21584643 1556582911074345 854020383 n.jpg

2017-09-10T21:23:40Z

Brandiyoder: File uploaded with MsUpload

File uploaded with MsUpload

Brandi Thermal Images

2017-09-10T21:23:17Z

Brandiyoder:

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2017-09-10T21:23:09Z

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Brandi Thermal Images

2017-09-10T21:22:55Z

Brandiyoder:

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2017-09-10T21:22:46Z

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Brandi Thermal Images

2017-09-10T21:22:28Z

Brandiyoder:

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File:21584554 1556582941074342 1831434249 n.jpg

2017-09-10T21:22:16Z

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Brandi Thermal Images

2017-09-10T21:21:57Z

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2017-09-10T21:19:39Z

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Cornelius Drebbel

2017-08-24T21:37:56Z

Brandiyoder:

Cornelius Drebbel (1572-1633) is credited with creating the first navigable submarine and creating a winter during summer for King James 1. Despite being the son of a burgher (merchant with political power), Drebbel received little formal education. He was a tinkerer and made a perpetual motion clock, which needed no power to function, but relied on the changing of pressure to give information like time, date and season. The attention from this clock was quite possibly the boost in popularity that allowed him to gain an invitation to court from King James, but sources differ on whether the clock was made before or during his time at court. While he was in service of King James's son Henry, Drebbel worked on masques and fireworks displays. In 1610, Drebbel relocated to Prague to show his inventions to Emperor Rudolph II, but was then imprisoned when Rudolph's brother Matthias came to power. Prince Henry then advocated for his release and Drebbel returned to England in 1613. In the 1620s, Drebbel made the first navigable submarine and succeeded in making two more, larger than the last. Drebbel is also credited with making permanent scarlet dye, the first colored thermometer and the thermostat.

References
https://www.thefamouspeople.com/profiles/cornelis-drebbel-6300.php
http://www.encyclopedia.com/history/encyclopedias-almanacs-transcripts-and-maps/drebbel-cornelius
http://www.bbc.co.uk/history/historic_figures/drebbel_cornelis.shtml
http://historyofalchemy.com/list-of-alchemists/cornelis-drebbel/

Cornelius Drebbel

2017-08-24T21:19:52Z

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Cornelius Drebbel (1572-1633) is credited with creating the first navigable submarine and creating

Brandi Yoder Chem430 F16

2016-08-29T01:40:22Z

Brandiyoder: Created page with "Chemistry/Biochemistry Research 430 :Fall 2016 :Brandi Yoder :Junior Biochemistry Major ==Research Times== Monday 2-5pm : section 01 = 0.25 credit = 4 hours per week. ==Pro..."

Chemistry/Biochemistry Research 430
:Fall 2016
:Brandi Yoder
:Junior Biochemistry Major

==Research Times==
Monday 2-5pm
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
The Langmuir Monolayer Technique is used to study surface chemistry and can be used to model the cell membrane of a eukaryotic cell. Liposomes can also be used as a model due to the lipid bilayer that is produced, allowing for the interpretation of how particles interact with the hydrophilic and hydrophobic regions of the membrane. Once a standard concentration of lipids found in the membrane can be determined and liposomes made reproducibly, nanoparticles of titanium dioxide and zinc oxide will be introduced to investigate how metals interact within the cell membrane, in order to ultimately determine if the particles in over the counter beauty products embed our skin. The compression isotherms of four lipids that are major components of the epithelial cell membrane were taken at body temperature in order to interpret how the lipid behaves in the skin. Liposomes were considered as a technique to study the bilayer due to the use of fluorescence when making them. A fluorescent lipid is introduced to the lipid or lipids that are being studied and the liposomes are then tested using a fluorimeter that allows for a graphical display of the excitation and emission. The compression isotherms have been interpreted and the fluorimeter mastered.

===Enter Project Title here===
Designing a Model Cell Membrane to Investigate the Absorption of Nanoparticles in Our Skin

===General Information===
:Advisor: Dr. Audra Sostarecz

===Proposal===

===Instruments to be used===
Flourimeter, Langmuir Monolayer Trough
===References (2 minimum)===
1.
2.

===Research pledge===
I, Brandi Yoder, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.