DNA absorbs in the ultraviolet range, at a wavelength ofabout 260 nanometers (nm); it absorbs at this wavelength because of the nitrogenousbases (A, G, C and T) of DNA.
blue colored and 545 to 565 nm wavelength of phycoerythrin does absorbs.
higly unretainable and has high absorption at 260 nm
higly unretainable and has high absorption at 260 nm
15.4 * 103 at 260 nm pH 7.5
About 260 miles; 4.5 to 5.5 hours driving time.
192 ft/lbs or 260 NM
The reason the wall appears black is that it absorbs light in the visible spectrum (~400nm to ~700 nm in wavelength); otherwise, the wall is no longer black. A green wall reflects green light (~500 nm) but absorbs all else. ===========================
It will be a dark red solution- like liquid bromine
Red light, in the region of 650 to 700 nm, travels further than blue.
Chlorophyll a is the most common of the six, present in every plant that performs photosynthesis. The reason that there are so many pigments is that each absorbs light more efficiently in a different part of the spectrum. Chlorophyll a absorbs well at a wavelength of about 400-450 nm and at 650-700 nm; chlorophyll b at 450-500 nm and at 600-650 nm. Xanthophyll absorbs well at 400-530 nm. However, none of the pigments absorbs well in the green-yellow region, which is responsible for the abundant green we see in nature.
It depends upon the type of chlorophyll. Chorophyll a absorbs light at 680 and 700 nm.