So THE number of distinct emission spectra lines that originates from electron transition between the first four energy levels in a hydrogen atom IS 4??????????????????????
@Treckorz The excited electron can take any route from an outer shell to it's inner most shell, ie, it could go 5-4-3-2-1, 5-3-2-1, 5-1, Et cetera.
Since each individual jump has a different eV value, the energy of the photon (and hence the colour of the light) varies with each jump. That means there are 15... I think...
Note, this is the bohr model represented in the video, and the only element that the bohr model correctly works with is Hydrogen.. if you want to look into more 'electron configurations' and how electrons move around the nucleus, look into schrodingers wave equation!
classic example of being succinct and wonderful at same time,no stupid ,alieanated formulas and complete description.i was looking for exactly the same thing.
i think it does ... because heat is used to generate spectrums ... and if heat is increased to a specific temperature ... then the hydrogen spectrum becomes continuous , instead of Line...
Thank you Jebus :)
pacslife20 3 months ago
fuckin magnets, how do they work?
LLit11 4 months ago in playlist Weitere Videos von kosasihiskandarsjah
So THE number of distinct emission spectra lines that originates from electron transition between the first four energy levels in a hydrogen atom IS 4??????????????????????
Treckorz 4 months ago
@Treckorz The excited electron can take any route from an outer shell to it's inner most shell, ie, it could go 5-4-3-2-1, 5-3-2-1, 5-1, Et cetera.
Since each individual jump has a different eV value, the energy of the photon (and hence the colour of the light) varies with each jump. That means there are 15... I think...
wedgeh05 4 months ago
@wedgeh05 oh because i only have the options of 3,4,6,9, and 16. What you think? Thanks allot too :)
Treckorz 4 months ago
Red, Blue, and Purple are Hydrogen's external infrared colors. Most of the frequencies fit right into my aura color frequency data.
q7spiz 9 months ago
the color of the hydrogen flame seems tobe indigo? then the indigo color in solar spectrum indicates the presence of hydrogen in our sun?
pirai101 11 months ago
Note, this is the bohr model represented in the video, and the only element that the bohr model correctly works with is Hydrogen.. if you want to look into more 'electron configurations' and how electrons move around the nucleus, look into schrodingers wave equation!
MattyHild 11 months ago
And I'm earning this in gr.11...
Fuck my school....
iiSusTaiN 1 year ago
Your momma is so big hydrogen spectra emitted near her surface have a redshift of .4
vrfl 1 year ago
Thanks, very clear.
alxuribe 1 year ago
classic example of being succinct and wonderful at same time,no stupid ,alieanated formulas and complete description.i was looking for exactly the same thing.
mansehrvi 2 years ago
Extremely Great point to point description,keep it up
5PlayMakerz 2 years ago
Proved that HKALE is not difficult
yiphoyin1031 2 years ago
thanks for the video
ikbenrifi 2 years ago
3 lesions of IB Chem summarized in 58 seconds.
Got to love youtube.
Commadoss 2 years ago 38
@Commadoss IB, lol, doing sl chem now. How'd that take you? :)
cooliokats 4 months ago
@Commadoss IB Chem=CRAZY
fifa08ronaldhino 3 weeks ago
good video. Clear as clear can be!
tIReDofConVErsaTIoN 2 years ago 10
Hey, I actually understood this topic better thanks to this vid =)
pipeorganloverNJP 2 years ago
Does spectrum depends on temperature?
GingleGangle1 2 years ago
i think it does ... because heat is used to generate spectrums ... and if heat is increased to a specific temperature ... then the hydrogen spectrum becomes continuous , instead of Line...
umer6945 2 years ago
interesting
cody2l 2 years ago
gr8 helped me
ssidarth 2 years ago
thanks for this video! Made my learning a lot easier!
jassongs 2 years ago
It's "Hydrogen", not "Hidrogen"
pjholl 3 years ago 2
corrected. thanks.
kosasihiskandarsjah 3 years ago
great video!
divwak 3 years ago