Mercury lamps are not strictly monochromatic sources. They emit light at multiple wavelengths across the visible spectrum and also in ultraviolet ranges. While they may emit some predominant wavelengths, they are not considered fully monochromatic like lasers.
Mercury vapour gives out several colours of different wavelength the rings formed with different colours would get overlapped and so chaotic image will be there. Therefore, it will require that you use light filters, yellow, green and blue for the different spectral lines, then you get monochromatic light and not a chaotic image at all.
Yes, single slit diffraction can be observed using a mercury lamp as the light source. When light from a mercury lamp passes through a narrow slit, it diffraction occurs, causing the light to spread out and create an interference pattern. This effect is commonly seen in physics demonstrations and labs.
In physics, monochromatic refers to light that consists of only one wavelength. This means that the light is of a single color with a specific frequency. Monochromatic light is often used in experiments and applications that require precise and controlled wavelengths.
If monochromatic light is used instead of a sodium vapor lamp in a diffraction grating experiment, the resulting spectrum will contain a single wavelength with evenly spaced interference fringes. This is because monochromatic light consists of only one specific wavelength, resulting in a clear and distinct pattern of interference.
No, a sodium lamp is not a monochromatic lamp. It emits light in a narrow range of wavelengths, primarily the yellow-orange region of the spectrum, but it is not strictly monochromatic as it produces a broader spectrum of light compared to a true monochromatic source.
Mercury lamps are not strictly monochromatic sources. They emit light at multiple wavelengths across the visible spectrum and also in ultraviolet ranges. While they may emit some predominant wavelengths, they are not considered fully monochromatic like lasers.
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.
Mercury vapour gives out several colours of different wavelength the rings formed with different colours would get overlapped and so chaotic image will be there. Therefore, it will require that you use light filters, yellow, green and blue for the different spectral lines, then you get monochromatic light and not a chaotic image at all.
A polarimeter typically uses a monochromatic light source, such as a sodium lamp or a laser, to measure the rotation of polarized light.
Yes, single slit diffraction can be observed using a mercury lamp as the light source. When light from a mercury lamp passes through a narrow slit, it diffraction occurs, causing the light to spread out and create an interference pattern. This effect is commonly seen in physics demonstrations and labs.
In physics, monochromatic refers to light that consists of only one wavelength. This means that the light is of a single color with a specific frequency. Monochromatic light is often used in experiments and applications that require precise and controlled wavelengths.
Hydrogen light is not completely monochromatic as it consists of multiple spectral lines. However, the most prominent and widely used line is the hydrogen-alpha line at a wavelength of approximately 656.3 nm, which is often used in astronomy and other scientific applications.
If monochromatic light is used instead of a sodium vapor lamp in a diffraction grating experiment, the resulting spectrum will contain a single wavelength with evenly spaced interference fringes. This is because monochromatic light consists of only one specific wavelength, resulting in a clear and distinct pattern of interference.
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)...........
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, 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.