NO. It produces four lines with wide difference in wavelengths. So it is not a monochromatic just as sodium vapour lamp
No, an incandescent bulb i.e. a bulb that emits light by the generation of heat, emits white light and is therefore not monochromatic. For a source to be monochromatic, the light emitted must be of a single wavelength.
Monochromatic light is light of one wavelength. E.g. A red laser has one single wavelength and is therefore categorised as 'monochromatic light'. A standard light bulb emits light of many different wavelengths across the visible spectrum and therefore is not 'monochromatic light'.
Almost, but it has some spreading. Laser diodes are monochromatic.
White light is monochromatic light.
Monochromatic means that it has only frequency. Polarized is definition for light which has its electric and magnetic vectors oscillating in a certain way (linearly polarized, elliptically and so on) but it might have many frequencies included. In the same time monochromatic light can be polarized.
No, an incandescent bulb i.e. a bulb that emits light by the generation of heat, emits white light and is therefore not monochromatic. For a source to be monochromatic, the light emitted must be of a single wavelength.
One way to achieve that is with a laser.
A monochromatic source is a source of light of a discrete wavelength. White light is a mixture photons with wavlengths from 390 to 750 nm (what the human eye can detect). The monochrmatic light will have a specific wavelength. For example all photons have wavelength 200 nm.
Monochromatic light is light of one wavelength. E.g. A red laser has one single wavelength and is therefore categorised as 'monochromatic light'. A standard light bulb emits light of many different wavelengths across the visible spectrum and therefore is not 'monochromatic light'.
That's monochromatic, coherent light. A well known source of such light is a laser.
It means "single color"; so basically, all the photons have the same frequency.
sodium light is not monochromatic but we consider it because sodium light is made up of two wavelengths i.e dichromatic having little difference in their values (5890 and 5896 A) n we take their mean value (5893 A)...........
Mono means single Chrome means colour So monochromatic means single coloured light Example: Light coming from Sodium vapour lamp ---- Monochromatic means (light) of a single frequency or, what is the same thing, of the same wavelength.
Almost, but it has some spreading. Laser diodes are monochromatic.
Monochromatic light contains light of only one colour (or frequency), while white light contains light of different colours and frequencies.
Monochromatic means "single-color". In contrast, white light is a mixture of many colors. In monochromatic light, each individual piece of light has the same frequency, and the same wavelength. Each piece of light does not necessarily have the same phase; if it does, the light is said to also be coherent.
Light comprising just one particular wavelength.monochromatic light consists ofwaves having same wavelenthsmonochromatic light is alight having single wavelenthAnswer 1: a light which has only one wavelength(or frequency) is called monochromatic light. for example - laser is a monochromatic but sunlight is not monochromatic because it contains group of frequency of various colours.Answer 2: It is light of a single (mono) colour (chromata). Monochromatic light cannot be separated into separate colours with a prism. Monochromatic light is light all of the same frequency.White light is not monochromatic as it can be separated into a "spectrum" by a prism, and neither are many other colours, like purple which is basically light lacking in green. Violet light is monochromatic, although because of the limitations of the human visual system it appears to be a sort of purple.Orange and other "Secondary" (human perceived) colours can be monochromatic or they can made with say green light and red light. These are two very different lights, as show by the ability of the prism to reseparate the red and green lights, but because of the limitation of the human eye are perceived the same. Similarly many dyes and combinations of lights will appear the same to most humans, but in fact are completely different spectrally and are only related in how they interact with the human visual system.