section{Results}
egin{figure} centering subfigure[]{
esizebox{hsize}{!}{includegraphics[clip]{../figures/G000.092+0.663_67_full_envelope_spec.eps}} label{fig:G000.092+0.663_67_spectra} } quad subfigure[]{
esizebox{hsize}{!}{includegraphics[clip]{../figures/G000.092+0.663_67_full_envelope_spec.eps}} label{fig:G006.189-0.358_67_spectra} }
caption{Spectra for class II methanol maser associated with G0.092+0.663 ( ef{fig:G000.092+0.663_67_spectra}) and G6.189-0.358 ( ef{fig:G006.189-0.358_67_spectra}) at 6.7 GHz.} label{fig:spectra_one} end{figure}
egin{figure} centering subfigure[]{
esizebox{hsize}{!}{includegraphics[clip]{../figures/G008.832-0.028_67_full_envelope_spec.eps}} label{fig:G008.832-0.028_67_spectra}} quad subfigure[]{ esizebox{hsize}{!}{includegraphics[clip]{../figures/G008.832-0.028_122_full_envelope_spec.eps}} label{fig:G008.832-0.028_122_spectra}} caption{Spectra for class II methanol maser associated with G8.832-0.028 at 6.7 ( ef{fig:G008.832-0.028_67_spectra}) and 12.2 GHz ef{fig:G008.832-0.028_122_spectra}.} label{fig:spectra_two} end{figure} egin{figure} centering subfigure[]{
esizebox{hsize}{!}{includegraphics[clip]{../figures/G008.872-0.493_67_full_envelope_spec.eps}} label{fig:G008.872-0.493_67_spectra} } quad subfigure[]{
esizebox{hsize}{!}{includegraphics[clip]{../figures/G358.460-0.391_67_full_envelope_spec.eps}} label{fig:G358.460-0.391_67_spectra} } caption{Spectra for class II methanol maser associated with G8.872-0.493 ( ef{fig:G008.872-0.493_67_spectra}) G358.460-0.391 ( ef{fig:G358.460-0.391_67_spectra}) and G358.460-0.393 ( ef{fig:G358.460-0.391_67_spectra}) at 6.7 GHz. The left maser peak group in Figure ef{fig:G358.460-0.3... ... middle of paper ...
...ers associated with G348.617-1.162 at 6.7 GHz.} label{fig:G348.617-1.162_67_timeseries} end{figure}
egin{figure}
esizebox{hsize}{!}{includegraphics[clip]{../figures/G348.617-1.162_122_full_dflux_ts.eps}} caption{Time series for class II methanol masers associated with G348.617-1.162 at 12.2 GHz.} label{fig:G348.617-1.162_122_timeseries} end{figure}
egin{figure}
esizebox{hsize}{!}{includegraphics[clip]{../figures/G351.688+0.171_67_full_dflux_ts.eps}} caption{Time series for class II methanol masers associated with G358.460-0.391 at 6.7 GHz.} label{fig:G351.688-0.171_67_timeseries} end{figure}
egin{figure}
esizebox{hsize}{!}{includegraphics[clip]{../figures/G358.460-0.391_67_full_dflux_ts.eps}} caption{Time series for class II methanol masers associated with G358.460-0.391 at 6.7 GHz.} label{fig:G358.460-0.391_67_timeseries} end{figure}
This senior research project is describing how 7.3 litre injectors and how they are put together, how they operate. This project will teach you all about 7.3 litre injectors, test them, and know how they work. There are many parts to an injector, internal and external. All the parts have a very specific job of what they do and how they do it. All the parts work together and with some oil pressure your injector fires.
Above is my original data. In the graph, it can be seen that there are
International Harvester built many good tractors over its years. Today I will be talking about the Super M-TA. The Super M-TA was International Harvester’s first tractor to have live power and other user friendly features. Before I talk about the tractor I’m going to give you a little International Harvester history.
At a constant temperature, a pure liquid has a vapor pressure that describes the pressure of escaped gaseous molecules that exist in equilibrium at the liquid’s surface. Adding energy to a pure liquid gives more molecules the kinetic energy to break the intermolecular forces maintaining the liquid and raises the overall temperature of the liquid. Eventually, adding energy boosts the liquid’s vapor pressure until it equals the surrounding atmospheric pressure. When this occurs, the pure liquid boils at a temperature called the boiling point.
I expect my graph to look like it does on the next page because I
Step 1: EER = 354 – 207.3 + [1.45 X (9.361 X 59.02 + 726 X 1.651)].
BMR = 66 + (6.23 x 165) + (12.7 x 71) - (6.8 x 17) = 1880.05
The Stirling engine has huge potential to be applied for converting heat into the mechanical work among a high thermal efficiency. Its thermal efficiency might be as high as the Carnot efficiency. The Stirling engine is an external combustion engine and it can be powered by various heat sources and waste heat. It is a simple type of external-combustion engine so it can be uses a compressible fluid as a working fluid. The thermal limit for the operation of a Stirling engine depends on the material used for its construction (Minassians & Sanders 2011).
The Army Chemical, Biological, Radiological, Nuclear Survey Teams find out information on an enemy target in order to defend the country against the threat of CBRN weapons and Weapons of Mass Destruction. The Army has drastically evolved in terms of the Chemical Corp. Today there are multiple units around the world that operate in Survey Teams. The two most popular units in the Chemical Corp are Technical Escort Units and Chemical Reconnaissance Detachments. There is much confusion about what the operations of these two units entail. This research paper will describe what they do as well as discuss the similarities and differences between the two.
The United States Chemical Corps has served the United States for 96 years. The Corps has adapted and changed dramatically to serve the Army’s need. Throughout WWI, WWII, Vietnam War and the Desert Storm. Chemical Corps played a big part in developing and improving the U.S. chemical and biological capabilities. The Corps has been a pinnacle part of the U.S. Army chemical and biological capabilities both offensive and defensive. They continue to adapt and overcome new challenges as the enemy is getting smarter and more technically advanced past, present and future.
0.000 7 63 106 55 74.7 1.245 9 70 135 90 98.3 1.638 11 85 135 70 96.8 1.613 [ IMAGE ] [ IMAGE ] Conclusion = = = =
From the Results there is an anomaly which is with the test tubes at 58oC, the results spike from 0.100 to 0.536 and then back down to 0.302, this anomaly may have happened due to the three samples in the test tubes potentially having a higher level pigment in the vacuole than the other
"A periodic table is an arrangement of elements in which the elements are separated into groups based on a set of repeating properties." Basically it shows us all known elements in the world. For one to read the periodic table he should beware that the atomic number comes first in the square , and referring to the atomic number its the number of protons found in the nucleus of an atom. Following the atomic number is the symbol, which is usually the abbreviation of the element's name. For example Carbon is referred to as " C". Then, the element’s name is shown right after the symbol. Lastly, there's the mass number, which is the number of protons and neutrons in the nucleus of an atom. So simply for us to find the number of protons we automatically
e) Ghosh, P. & Kelly, M. (2010). Expanding the power of PET with PERCIST. [Siemens Healthcare White Paper]. URL http://usa.healthcare.siemens.com/siemens_hwem-hwem_ssxa_websites-context-root/wcm/idc/groups/public/@us/@imaging/@molecular/documents/download/mdaw/nduz/~edisp/white_paper_10_percist-00309714.pdf
Pictures, images or graphics are a very useful way of brightening up a document and making it more appealing and interesting for the end user. Graphics can be added to Word in a variety of ways, including inserting; Pictures, Clip Art, Shapes and SmartArt. When images are added to a document it is important to consider the graphic formatting options available, such as cropping, wrapping, styles, effects and position (graphics will be discussed in detail in LO2).