Q&A

Where is 100 nm on the electromagnetic spectrum?

Where is 100 nm on the electromagnetic spectrum?

Region Wavelength Frequency
Ultraviolet 100 nm 3 × 1015 Hz
Visible (blue) 400 nm 7.5 × 1014 Hz
Visible (red) 700 nm 4.3 × 1014 Hz
Infrared 10000 nm 3 × 1013 Hz

How do you explain the electromagnetic spectrum to a child?

The electromagnetic spectrum takes all the electromagnetic waves and lines them up based on their wavelengths. So what is a wavelength? If you have ever been to the beach and watched the water move, you have seen a wavelength. Electromagnetic waves move similarly to the rising and falling of water waves.

What is the electromagnetic spectrum kid definition?

Electromagnetic spectrum DEFINE The range of waves that includes radio waves, microwaves, infrared waves, visible light, ultraviolet light, X-rays, and gamma rays.

What is the wavelength of electromagnetic spectrum?

Electromagnetic waves are categorized according to their frequency f or, equivalently, according to their wavelength λ = c/f. Visible light has a wavelength range from ~400 nm to ~700 nm….The EM spectrum.

Type of Radiation Frequency Range (Hz) Wavelength Range
ultraviolet 1015 – 1017 400 nm – 1 nm
visible 4 – 7.5*1014 750 nm – 400 nm

What is the electromagnetic spectrum kids?

Electromagnetic Spectrum Definition for Kids. Electromagnetic spectrum is the entire range of radiation that the sun produces and emits, a part of which is received by our planet earth.

What are the names of the electromagnetic spectrum?

The electromagnetic spectrum (EMS) is the general name given to the known range of electromagnetic radiation. Wavelengths increase from approximately 10 -18 m to 100 km, and this corresponds to frequencies decreasing from 3 × 10 26 Hz to 3 ×10 3 Hz. The image below shows the names given to different regions of the EMS.

How big is the range of electromagnetic radiation?

The electromagnetic spectrum ( EMS) is the general name given to the known range of electromagnetic radiation. Wavelengths increase from approximately 10 -18 m to 100 km, and this corresponds to frequencies decreasing from 3 × 10 26 Hz to 3 ×10 3 Hz.

How did Maxwell predict the existence of the electromagnetic spectrum?

Maxwell’s equations predicted the existence of an infinite number of frequencies of electromagnetic waves, all travelling with the speed of light. This is the first indication of the existence of the entire electromagnetic spectrum.