Planck's Energy formula E= hf = hc/w, provides a way to convert energy to wavelength.
Wavelength w= hc/E = .2e-15 joule-nanometers/energy.
680 nanometers to 700 nanometers is about optimum for the photosynthetic rate but there are other wave lengths that plants do use.
Any wavelength shorter than roughly 400 nanometers, and any wavelength longer than roughly 700 nanometers, is invisible. That is, its presence is not detected by the human eye.
Green.
In the context of ultraviolet rays, nm stands for nanometers, which is a unit of measurement used to describe the wavelength of these rays. Ultraviolet radiation is classified into different categories based on their respective wavelength ranges, such as UVA (320-400 nm), UVB (280-320 nm), and UVC (100-280 nm).
No, ultraviolet light has a shorter wavelength than visible light. Visible light falls within the electromagnetic spectrum with wavelengths ranging from approximately 400 to 700 nanometers, while ultraviolet light has shorter wavelengths below 400 nanometers.
The energy of 510 eV corresponds to an X-ray photon with a wavelength of approximately 2.4 nanometers.
Wavelength is 720 nanometers. Energy is 2.72 x 10-19 joules.
Violet light has a wavelength of 413 nanometers.
um it would be (approximately) the same wavelength of the green light in nanometers instead of any other color wavelength it would nanometers.
Oh, dude, converting Joules to nanometers? That's like trying to turn a potato into a unicorn. It's not really a thing, you know? Joules measure energy, while nanometers measure length. It's like comparing apples to oranges, man. Just keep those units in their own lanes and you'll be golden.
The visible light with the highest energy corresponds to light in the violet/blue region, which has a wavelength range of approximately 400-450 nanometers.
680 nanometers to 700 nanometers is about optimum for the photosynthetic rate but there are other wave lengths that plants do use.
The energy of a photon of green light with a wavelength of approximately 520 nanometers is about 2.38 electronvolts.
For visible light, the wavelength will usually be specified in nm (nanometers).
Any wavelength shorter than roughly 400 nanometers, and any wavelength longer than roughly 700 nanometers, is invisible. That is, its presence is not detected by the human eye.
The wavelength of violet light ranges from approximately 380 to 450 nanometers, with the shorter wavelengths corresponding to deeper shades of violet.
The wavelength of a microwave at 2.30 GHz is approximately 130 millimeters (mm), which is equivalent to 130,000 nanometers (nm).