Frequencies over 800 Terahertz to about 1600 Terahertz.
That depends what you call "high" or "low". The frequency of ultraviolet waves is higher than that of visible light; lower than that of x-rays.
Sounds that vibrate quickly create short waves, while sounds that vibrate slowly create long waves. The frequency of the vibration determines the length of the wave - high frequency vibrations result in short waves, while low frequency vibrations result in long waves.
From the equation E=hv where h= plank's constant v=frequency and ultraviolet waves has more frequency than radio waves hence ultraviolet waves have more energy.
Ultraviolet waves have frequencies ranging from about 7.5 × 10^14 Hz to 3 × 10^16 Hz.
All types of waves vibrate as they transport energy without transporting matter. Examples include light waves, sound waves, and water waves. The vibration of the waves determines their frequency and wavelength.
Ultraviolet is higher frequency, then visible light, then infrared.
From the equation E=hv where h= plank's constant v=frequency and ultraviolet waves has more frequency than radio waves hence ultraviolet waves have more energy.
That depends what you call "high" or "low". The frequency of ultraviolet waves is higher than that of visible light; lower than that of x-rays.
Sounds that vibrate quickly create short waves, while sounds that vibrate slowly create long waves. The frequency of the vibration determines the length of the wave - high frequency vibrations result in short waves, while low frequency vibrations result in long waves.
From the equation E=hv where h= plank's constant v=frequency and ultraviolet waves has more frequency than radio waves hence ultraviolet waves have more energy.
Ultraviolet waves have frequencies ranging from about 7.5 × 10^14 Hz to 3 × 10^16 Hz.
Radio waves and ultraviolet waves are the same physical phenomenon.The difference is that radio waves have a much greater wavelength.(That's equivalent to saying that they have a much lower frequency.)
Ultraviolet (UV) light has a higher frequency (and a shorter wavelength and shorter period) than violet light. It is more energetic, too. We can't see UV light as our eyes only see up through violet. The shorter wavelengths of the UV light are something we cannot detect with our eyes. We can see (in order of increasing frequency) red, orange, yellow, green, blue and violet light. The UV light is outside the range of our vision.
All types of waves vibrate as they transport energy without transporting matter. Examples include light waves, sound waves, and water waves. The vibration of the waves determines their frequency and wavelength.
The frequency for ultraviolet waves typically ranges from about 7.5 × 10^14 Hz (the lower end of the UV spectrum) to 3 × 10^16 Hz (the higher end).
neither... they both are electromagnetic waves and therefore travel at the same speed... but ultraviolet waves have a higher frequency and also have more energy than radio waves
Gamma rays and radio waves are both electromagnetic waves. Radio frequency waves are a lower frequency, so they have a longer wave length.