NEON YELLOW -NEON GREEN....nEver seen Dis

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h8red1

Well-Known Member
NOW try to grab this CONCEPT.......what i feel when i read your comment is WHAT IF this plant is able to absorb all the colors a GREEN plant would, IN ADDITION would ABSORB GREEN wave lenghts, and NOT be able to absorb YELLOW and thats what we might be SEEING. WHAT is reflected and not able to ABSORB??


i think that that may very well be possible



AND AS YOU CLEARLY POSTED qoute and qoute" "The chlorophyll is green because it absorbs red and blue wavelengths of light -- and so green is not absorbed and is reflected, making the plant look green to your eyes. Non-transparent things are the color they are because that is the color that is NOT absorbed -- the color you see is the color that is reflected... which is why you see it




so is it a possibility???????????
 

h8red1

Well-Known Member
dude hatred do you even know why plants are green???

Becuase the is how they get enegry from the sun

FACT

now look at your fucking pic!!

your plant on the right has major defintioncy and the one on the left is starting to get it too. look at the bottom leaves!!!

its not a special plant and it problem is now starting on you other plants!!!




both those plants is hongrey homie!!!!!!





now read up man you making yourself look like a clown shoe:




Why leaves are green?


In: Chemistry, Botany or Plant Biology [Edit categories]



The green color in leaves is caused by the presence of a compound called "chlorophyll," which the plant produces to do photosynthesis, which is how plants get energy from sunlight. The purpose of chlorophyll is to assist the plant in making food for itself by utilizing energy from sunlight and nutrients from the soil.

The chlorophyll is green because it absorbs red and blue wavelengths of light -- and so green is not absorbed and is reflected, making the plant look green to your eyes. Non-transparent things are the color they are because that is the color that is NOT absorbed -- the color you see is the color that is reflected... which is why you see it
???????????????????????????
 

h8red1

Well-Known Member
from what i read from earlier green is whats not absorbed and thats what WE see, so who are we to say this plant isnt absorbing yellow and thats what were seeing......i think it might be possible.
 

fdd2blk

Well-Known Member
from what i read from earlier green is whats not absorbed and thats what WE see, so who are we to say this plant isnt absorbing yellow and thats what were seeing......i think it might be possible.
[youtube]toHlMD50eYY[/youtube]
 

ledgrowing

Well-Known Member
He posted this pic as a response to the link you gave which IS this pic



This is his sick plant



This has been a misunderstanding....try to keep up!

:leaf::peace::leaf:

i checked the link i dont see any pics of that plant yes there are plants that look like that but not that one exactly so i dont know why you guys keep calling him a liar that seems to be his plant not all of yours so even if it is just a def he dosent want your help to fix it he is already convinsed its a mutant pheno so if your a hater bounce if your a congradulator or a spectator sit back relax and see if this bitch is really yellow by trait.. me im a spectator i wanna know but im not gonna put my foot in my mouth and call this guy out cuz i dont have all the facts. let it flower. then see whos right untill then blaze on all four corners of the earth:peace: and:bigjoint::leaf:
 

Jeffdogg

Well-Known Member
prove it............
Photosynthesis is the process of converting light energy to chemical energy and storing it in the bonds of sugar. This process occurs in plants and some algae (Kingdom Protista). Plants need only light energy, CO2, and H2O to make sugar. The process of photosynthesis takes place in the chloroplasts, specifically using chlorophyll, the green pigment involved in photosynthesis.
Photosynthesis takes place primarily in plant leaves, and little to none occurs in stems, etc. The parts of a typical leaf include the upper and lower epidermis, the mesophyll, the vascular bundle(s) (veins), and the stomates. The upper and lower epidermal cells do not have chloroplasts, thus photosynthesis does not occur there. They serve primarily as protection for the rest of the leaf. The stomates are holes which occur primarily in the lower epidermis and are for air exchange: they let CO2 in and O2 out. The vascular bundles or veins in a leaf are part of the plant's transportation system, moving water and nutrients around the plant as needed. The mesophyll cells have chloroplasts and this is where photosynthesis occurs.

As you hopefully recall, the parts of a chloroplast include the outer and inner membranes, intermembrane space, stroma, and thylakoids stacked in grana. The chlorophyll is built into the membranes of the thylakoids.
Chlorophyll looks green because it absorbs red and blue light, making these colors unavailable to be seen by our eyes. It is the green light which is NOT absorbed that finally reaches our eyes, making chlorophyll appear green. However, it is the energy from the red and blue light that are absorbed that is, thereby, able to be used to do photosynthesis. The green light we can see is not/cannot be absorbed by the plant, and thus cannot be used to do photosynthesis.

There now quit acting so ignorant and stop abusing your plant (if its even your plant to begin with)

Edit: thx for morning Jethro Tull Fdd!!
 

Jeffdogg

Well-Known Member
from what i read from earlier green is whats not absorbed and thats what WE see, so who are we to say this plant isnt absorbing yellow and thats what were seeing......i think it might be possible.

Stop thinking ;-)

but its a good thing you learned to type to where we can understand you now home slice GJ LMAO :lol:
 

h8red1

Well-Known Member
Photosynthesis is the process of converting light energy to chemical energy and storing it in the bonds of sugar. This process occurs in plants and some algae (Kingdom Protista). Plants need only light energy, CO2, and H2O to make sugar. The process of photosynthesis takes place in the chloroplasts, specifically using chlorophyll, the green pigment involved in photosynthesis.
Photosynthesis takes place primarily in plant leaves, and little to none occurs in stems, etc. The parts of a typical leaf include the upper and lower epidermis, the mesophyll, the vascular bundle(s) (veins), and the stomates. The upper and lower epidermal cells do not have chloroplasts, thus photosynthesis does not occur there. They serve primarily as protection for the rest of the leaf. The stomates are holes which occur primarily in the lower epidermis and are for air exchange: they let CO2 in and O2 out. The vascular bundles or veins in a leaf are part of the plant's transportation system, moving water and nutrients around the plant as needed. The mesophyll cells have chloroplasts and this is where photosynthesis occurs.

As you hopefully recall, the parts of a chloroplast include the outer and inner membranes, intermembrane space, stroma, and thylakoids stacked in grana. The chlorophyll is built into the membranes of the thylakoids.
Chlorophyll looks green because it absorbs red and blue light, making these colors unavailable to be seen by our eyes. It is the green light which is NOT absorbed that finally reaches our eyes, making chlorophyll appear green. However, it is the energy from the red and blue light that are absorbed that is, thereby, able to be used to do photosynthesis. The green light we can see is not/cannot be absorbed by the plant, and thus cannot be used to do photosynthesis.

There now quit acting so ignorant and stop abusing your plant (if its even your plant to begin with)

Edit: thx for morning Jethro Tull Fdd!!






yup this say that GREEN not absorbed as well,thats what we see


Chlorophyll looks green because it absorbs red and blue light, making these colors unavailable to be seen by our eyes. It is the green light which is NOT absorbed that finally reaches our eyes, making chlorophyll appear green.



i think this does not PROVE or CONTRADICT anything


,Qoute and Qoute
 

h8red1

Well-Known Member
LMAO........................das pretty cool! needed that at work was feeling real tired, picked up my day
 

h8red1

Well-Known Member
i checked the link i dont see any pics of that plant yes there are plants that look like that but not that one exactly so i dont know why you guys keep calling him a liar that seems to be his plant not all of yours so even if it is just a def he dosent want your help to fix it he is already convinsed its a mutant pheno so if your a hater bounce if your a congradulator or a spectator sit back relax and see if this bitch is really yellow by trait.. me im a spectator i wanna know but im not gonna put my foot in my mouth and call this guy out cuz i dont have all the facts. let it flower. then see whos right untill then blaze on all four corners of the earth:peace: and:bigjoint::leaf:


so thanks for the punch yo, wasnt trying to stir anything up thought it be cool and everyone would enjoy, but was i FAR OFF!!!!!!!!!!! NE whooooooo thats for staying posted and i will keep doing updated as soo as my clones ROOT//// K
 

h8red1

Well-Known Member
real talk does not prove any thing how do you explain certain PLANTS that have NO GREEN what so ever, THE color we see on the plant is what not being absorbed ???RIGHT????if not i like a lil more DETAIL,, cause im pretty sure there are PLANTS out there who have a DIFF


Chlorophyll looks green because it absorbs red and blue light, making these colors unavailable to be seen by our eyes. It is the green light which is NOT absorbed that finally reaches our eyes, making chlorophyll appear green.
 

Hayduke

Well-Known Member
It is the green light which is NOT absorbed that finally reaches our eyes, making chlorophyll appear green.
It is reflected...it is not color..it is light.

If you have a red car...it is not really red, but the paint has molecules of a certain shape which reflect red light and absorb other spectrum of light

The broad spectrum of visible light is referred to as white light...white paint as we know is very reflective of a broad spectrum of light waves.

Yes some plants use other spectrum of light and reflect light other than in the green spectrum (this too is why you can work in your "dark" garden with a green light by the way) such as Japanese Maples which reflect red light...So not all chloroplasts operate on the same wavelengths of light (A and B)...but if you can find some examples of healthy yellow plants in nature, it would help us understand that this is a trait being expressed in a novel phenotype...rather than the sick plant whose nursery mates are starting to exhibit the same symptoms on lower leaves...

:leaf::peace::leaf:
 

h8red1

Well-Known Member
It is reflected...it is not color..it is light.

If you have a red car...it is not really red, but the paint has molecules of a certain shape which reflect red light and absorb other spectrum of light

The broad spectrum of visible light is referred to as white light...white paint as we know is very reflective of a broad spectrum of light waves.

Yes some plants use other spectrum of light and reflect light other than in the green spectrum (this too is why you can work in your "dark" garden with a green light by the way) such as Japanese Maples which reflect red light...So not all chloroplasts operate on the same wavelengths of light (A and B)...but if you can find some examples of healthy yellow plants in nature, it would help us understand that this is a trait being expressed in a novel phenotype...rather than the sick plant whose nursery mates are starting to exhibit the same symptoms on lower leaves...

:leaf::peace::leaf:

and so the search begins....thanks for providing some GOOD feedback.....
 
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