Convert wavelength in micrometres to wavelength in centimetres [cm] Online | Free frequency-wavelength Converter

Understanding Infrared and Thermal Radiation

A micrometre (µm), also known as a micron, is equal to one millionth of a metre (1 µm = 10⁻⁶ m) and is commonly used to express wavelengths of electromagnetic radiation, particularly in the infrared (IR) region of the spectrum. Wavelengths in this range are crucial for understanding heat, thermal imaging, remote sensing, and optical communications. The infrared spectrum typically spans from 0.75 µm to about 1000 µm, with specific regions divided into near-IR (0.75–1.4 µm), mid-IR (1.4–8 µm), and far-IR (8–1000 µm).

Many natural processes, including thermal emission from objects, occur in the micrometre wavelength range. For example, the human body emits peak thermal radiation at around 9–10 µm. Materials scientists, astronomers, and engineers use these wavelengths to study heat flow, detect gases, and design sensors. Optical fibers used in telecommunications also operate efficiently in the near-IR range around 1.3 to 1.55 µm. Using micrometres to describe wavelength offers a practical and precise way to work with electromagnetic waves that are too long for nanometres but still far shorter than those measured in millimetres.

A Key Scale in Radio and Microwave Technology

A centimetre (cm) is a unit of length equal to 10⁻² metres, and it is commonly used to express the wavelengths of radio and microwave radiation. Electromagnetic waves with wavelengths in the centimetre range typically fall within the radio frequency (RF) and microwave bands, covering frequencies from about 3 GHz to 30 GHz (for wavelengths between 10 cm and 1 cm). These waves are essential in a wide variety of applications, including Wi-Fi, Bluetooth, microwave ovens, radar, and satellite communications.

For example, Wi-Fi signals often operate at 2.4 GHz, which corresponds to a wavelength of about 12.5 cm, and microwave ovens use 2.45 GHz, or around 12.2 cm. These wavelengths are long enough to penetrate walls and other obstacles, making them ideal for communication and sensing. Centimetre-scale wavelengths also allow for the use of reasonably sized antennas in consumer devices and radar systems.

Using centimetres as a unit for wavelength provides a practical scale for understanding and designing devices that use radio and microwave frequencies. It simplifies communication between scientists, engineers, and technicians working in telecommunications, aerospace, medical imaging, and remote sensing.