A thousandth of a micrometre is a nanometre. A thousandth of that is a picometre. A thousandth of that is a femtometre. A thousandth of that is a attometre. A thousandth of that is a zeptometre. A thousandth of that is a yoctometre. There is also 1/10 nanometre, which is known as the Angstrom unit. An alternative answer to the question is, half a micrometre, a thrid of a micrometre, a quarter of a micrometre etc.
0.7 millimeters rounded to the nearest thousandth is still 0.7 millimeters, also known as 0.700 millimeters. They both mean the same thing.
A cubic centimeter has the volume of a cube with each side 1 cm long. Also known in liquids as a ml, a milli litre, = one thousandth of a litre.
A mil, otherwise known as a thou, is equal to one thousandth of an inch. Therefore, 80 mil is equal to 80/1000 = 0.08 inches.
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Electromagnetic Waves
A thousandth of a micrometre is a nanometre. A thousandth of that is a picometre. A thousandth of that is a femtometre. A thousandth of that is a attometre. A thousandth of that is a zeptometre. A thousandth of that is a yoctometre. There is also 1/10 nanometre, which is known as the Angstrom unit. An alternative answer to the question is, half a micrometre, a thrid of a micrometre, a quarter of a micrometre etc.
The region of the electromagnetic spectrum between 400 and 700 nm is known as the visible light spectrum. This is the range of wavelengths that the human eye can perceive, which includes the colors of the rainbow.
The primary wavelengths of radiation emitted by Earth's surface are in the thermal infrared range between 8 and 14 micrometers. This radiation is also known as longwave radiation and is a key component of Earth's energy balance.
Electromagnetic radiation with wavelengths between visible light and X-rays is called ultraviolet radiation. It is known to have shorter wavelengths and higher energy than visible light, and is commonly associated with effects like sunburn and skin damage from excessive exposure.
In standard form also known as scientific notation it is: 1.1*10^-5
Violet light wavelengths bend the most, and red light wavelengths bend the least when passing through a medium, such as air or water. This phenomenon is known as dispersion, where different colors of light are refracted at different angles due to their differing wavelengths.
Yes, light of different wavelengths appears as different colors to the human eye. This is due to how our eyes perceive the different wavelengths of light as different colors, ranging from red at longer wavelengths to violet at shorter wavelengths. This phenomenon is known as color perception.
The sound of a police siren moving away from you will have longer wavelengths, resulting in a lower pitch or frequency. Conversely, a siren moving towards you will have shorter wavelengths, resulting in a higher pitch or frequency. This phenomenon is known as the Doppler effect.
The human eye can see a range of wavelengths of light known as the visible spectrum, which includes colors from violet (shorter wavelengths) to red (longer wavelengths). This spectrum extends from approximately 400 to 700 nanometers.
Wavelengths can be measured by determining the distance between two corresponding points on a wave, such as from peak to peak or trough to trough. This distance is typically measured in meters, nanometers, or angstroms depending on the scale of the wavelength being measured. Instruments like spectrometers or diffraction gratings can also be used to measure wavelengths accurately.
Waves with wavelengths between 400 nm and 10 nm fall within the ultraviolet (UV) range of the electromagnetic spectrum. This range includes UVA, UVB, and UVC rays, with UVA having wavelengths between 315-400 nm, UVB between 280-315 nm, and UVC between 100-280 nm. These waves have increasingly higher energy and are known for their potential harmful effects on living organisms.