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Bright yellow :: This is the sodium ions. Any sodium compound will give a flame test colour of yellow/
By knowing or learning that the bright yellow lines observed with sodium chloride occur with all other compounds of sodium but not with any other compound of chlorine that does not contain sodium.
The difference in energy states for the electrons is different in sodium and neon, so they produce different wavelengths (the emission spectrum of each element is different) or colors.
It is unique to a specific atom. The emission spectrum of sodium, for example, has two characteristic lines close together in the yellow part of the spectrum, which cannot be found in any other atom. Each line in a spectrum relates to a change in electron state or level.
The most important emission wavelength of sodium is in the yellow region.
Sodium ions (Na+, from any sorium salt) produce an yellowish orange colored flame with wavelength averaging at a 589.3 nm (actually two dominant spectral lines very close together at 589.0 and 589.6 nm).
Because the most important spectral lines of sodium are in the yellow region of the spectrum.
it is a silvery color, but can also be a white color
The emission of sodium lies in the yellow region
Bright yellow :: This is the sodium ions. Any sodium compound will give a flame test colour of yellow/
By knowing or learning that the bright yellow lines observed with sodium chloride occur with all other compounds of sodium but not with any other compound of chlorine that does not contain sodium.
In a flame, sodium chloride produces a bright orange-yellow colour.
Bright yellow
It produces a bright yellow flame
Sodium burns mostly in the centre of the visible spectrum because of the way its electrons and energy levels are arranged; this corresponds to yellow.
Computer uses can find the color bright green in the spectrum of colors known in printing as RYGB (red, yellow, green, blue). All colors, including bright green, are contained in this spectrum.
No, sodium lamps are not monochromatic. They emit a broad spectrum of light, with a characteristic yellow-orange color due to the dominant emission of spectral lines in the yellow region.