If the wall reflects light in the 400 to 500 nm range and absorbs light in the 600 to 700 nm range, it would appear to our eyes as a color that falls within the reflected range (blue-green) and not in the absorbed range. The absorbed light would not contribute to the perceived color of the wall.
Light can be detected by the human eye when it falls within the visible spectrum, which ranges from approximately 400 to 700 nanometers. It can also be detected by various instruments such as cameras, sensors, and photodetectors across different wavelengths, including ultraviolet and infrared light.
Carotenoids reflect yellow-orange light and absorb blue-green light.
Violet light (400-450 nm) absorbs yellow and orange wavelengths. This is why violet objects appear to be violet because they reflect violet light and absorb others.
Red absorbs wavelengths in the blue-green range of the spectrum, around 400-500 nanometers. This is why when white light containing all colors passes through a red object, only the red light is reflected while the other colors are absorbed.
400 to 700 nm because white light is the mixture of all 7 coloured lights.
It will be a dark red solution- like liquid bromine
Light can be detected by the human eye when it falls within the visible spectrum, which ranges from approximately 400 to 700 nanometers. It can also be detected by various instruments such as cameras, sensors, and photodetectors across different wavelengths, including ultraviolet and infrared light.
Carotenoids reflect yellow-orange light and absorb blue-green light.
Violet light (400-450 nm) absorbs yellow and orange wavelengths. This is why violet objects appear to be violet because they reflect violet light and absorb others.
400 X 400 would normally denote 400 millimeters by 400 millimeters, length and breadth of the wall mount.
Cell wall, nucleus and chloroplasts can be seen with a compound light microscope under a total magnification of 400 X. The chloroplasts are self pigmented hence visible. Cell wall and nucleus being very dense are also visible without staining.
you have to be over 400 feet to get over the wall
you have to be over 400 feet to get over the wall
The rate of photosynthesis is maximum in blue light because the chlorophyll absorbs more light in the range of 400-500 nm wavelength. In addition, chlorophyll also absorbs light in the red region.
Red absorbs wavelengths in the blue-green range of the spectrum, around 400-500 nanometers. This is why when white light containing all colors passes through a red object, only the red light is reflected while the other colors are absorbed.
We can see color in the visible region of the spectrum (400-700 nanometers). If the light absorbed by something is visible, this absorption results in the COMPLIMENT of that color being seen by the human eye. For instance: if the wavelength is 400-424 nanometers, purple is absorbed, and the compliment (opposite) of it is yellow, so you see something that absorbs wavelengths 400-424 nanometers as YELLOW. When you plot value of light absorbed (Y-axis) vs. Wavelength of incident light (X-axis), lambda max is the tallest peak on the graph, explained: let's say that highest peak is at wavelength of 532, this means that most of the light absorbed is of wavelength=532 nanometers, which is green... the complimentary color to green is red... therefore, your eye will see red, not green.
The most light absorbed by plants is in the blue (400-500 nm) and red (600-700 nm) wavelengths. This is because the pigment chlorophyll absorbs light most efficiently in these ranges for photosynthesis. Green light (500-600 nm) is least absorbed, which is why plants appear green to our eyes.