OpenStudy (anonymous):
Proofread for me? :)
OpenStudy (goformit100):
ok
OpenStudy (anonymous):
ATOMIC EMISSION SPECTRUMS OF ELEMENTS Monday, October 8th 2012 Background: - The emission spectrum of an element is the spectrum of frequencies of radiation emitted by the atom's electrons when they are returned to a lower energy state after being heated up or excited. Each element emits a unique spectrum, dependant on its electrons and electronic activity. Purpose: - To observe specific wavelengths of light emitted by elements using a simple spectroscope and a diffraction grating, and to explain the science behind why such occurs. Materials Used: - Simple Spectroscope, - Gas filled tubes Procedures: - The bright line spectrums of different elements were observed with the help of a simple spectroscope pointed at gas filled tubes - Measurements were taken using the angstrom scale under the bright lines - The lines observed for each element were recorded as spectrums. Questions: - When atoms are heated up, the outer most electrons of that atom get excited. When they get excited, they move around so once these electrons wear out their energy, they release it in the form of light; this light is presented in the form of colorful wavelengths. Since every chemical compound has a different number of electrons (every element has a unique electron configuration), they act differently and release different wavelengths of light. Given that each element releases different wavelengths due to different electronic activity, the colors released from their light waves are also different. In view of this fact, no two atoms are able to emit the same wavelengths and thus a unique emission spectrum is produced. - The Fluorescent lights compared to Sunlight do not have the same spectrum as result of the reasoning provided above. Fluorescent lights and Sunlight consist of different gases/chemical compounds/elements, deducing that they will not emit the same spectrum since every element has different electronic activity, meaning different wavelengths, producing different colors of light waves. *I already have the data and the conclusion is being worked on
OpenStudy (anonymous):
Wrong section.
OpenStudy (anonymous):
yes i know it's chemistry....
OpenStudy (anonymous):
Post it on chemistry
OpenStudy (anonymous):
nope sorry...no ones gonna see it then
OpenStudy (anonymous):
@hartnn work ur magic? :)
OpenStudy (anonymous):
@lgbasallote is good too :D
OpenStudy (anonymous):
good luck getting someone to read it lol
OpenStudy (lgbasallote):
on contraire...35 people are online in chemistry
OpenStudy (anonymous):
i know but they dont respond and blah blah blah :\ ...just read it please :)
OpenStudy (anonymous):
@rani if i wanted to have someone be rude, i would hire someone...bye! :)
OpenStudy (anonymous):
bye :)
hartnn (hartnn):
i don't even know c of chemistry......
OpenStudy (lgbasallote):
@hartnn is strictly math lover
OpenStudy (anonymous):
apologies....so anyone?
OpenStudy (anonymous):
@nincompoop
OpenStudy (anonymous):
@CliffSedge
OpenStudy (anonymous):
@UnkleRhaukus
OpenStudy (anonymous):
@Hero
OpenStudy (anonymous):
@countonme123
OpenStudy (anonymous):
@countonme123 be a boss and please proofread :)
OpenStudy (anonymous):
haha come on... I am not a big proof reader...
OpenStudy (anonymous):
just read over it n tell me if it sounds okay :) ...pretty please ^_^
OpenStudy (anonymous):
@marcoduuuh be the most amazingest person of the world n do this for me ^_^
OpenStudy (anonymous):
I'm not really good at this but i'd say it's good. (: Tell me when the conclusion is done!
OpenStudy (anonymous):
ill post it in a few ...U ROCK ^.^
OpenStudy (anonymous):
this is like all i could come up with lol
OpenStudy (anonymous):
Conclusion: - After conducting this experiment, and result of further in-depth research over this topic, we have learned much about the atomic emission spectra of elements. Such may include that every element has its own unique spectrum, created by its distinctive wavelength radiation, because of electron activity; not all emitted spectra are visible to the naked eye, and we use special tools –like spectroscopes along with other greater technological tools- to detect these wavelengths; and lastly, all gases emit radiation in the form of colorful wavelengths, their colors depending on frequency.
OpenStudy (usukidoll):
c is for cookie. That's good enough for me ^^
OpenStudy (anonymous):
@marcoduuuh
OpenStudy (anonymous):
@UsukiDoll what??
OpenStudy (anonymous):
Hi, I like it therefore you've passed my approval.(;
OpenStudy (anonymous):
^.^
OpenStudy (anonymous):
*happy dance*
OpenStudy (anonymous):
BOOOYAA!! T(^.^T)
OpenStudy (goformit100):
you poste CHEMISTRY QUESTION in Mahematics section.... you can be suspended for it by @shadowfiend
OpenStudy (anonymous):
someones mad at yummy lol
OpenStudy (anonymous):
Lol. :c
OpenStudy (anonymous):
oh geez :\
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