That depends on the speed of the waves. If you are considering waves at the same speed, then yes, shorter wavelength equals higher frequency. The formula is: frequency = speed / wavelength or wavelength = speed / frequency From this you can clearly see, that if speed remains constant, then when wavelength decreases the frequency will increase and vice versa.
All electro magnetic radiation (including radio waves and visible light) travels at the speed of light or 300,000 km/sec
Which ever is the highest frequency
The speed is usually more or less independent of the wavelength. It really depends on the exact nature of the wave; in the case of an electromagnetic wave in a vacuum, the speed is completely independent of the wavelength - all such waves move at the same speed, the so-called "speed of light".
The highest energy are the gamma rays.
For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.
That depends on the speed of the waves. If you are considering waves at the same speed, then yes, shorter wavelength equals higher frequency. The formula is: frequency = speed / wavelength or wavelength = speed / frequency From this you can clearly see, that if speed remains constant, then when wavelength decreases the frequency will increase and vice versa.
All electro magnetic radiation (including radio waves and visible light) travels at the speed of light or 300,000 km/sec
Which ever is the highest frequency
The speed is usually more or less independent of the wavelength. It really depends on the exact nature of the wave; in the case of an electromagnetic wave in a vacuum, the speed is completely independent of the wavelength - all such waves move at the same speed, the so-called "speed of light".
The waves are highest in the winter/January.
Electromagnetic waves always travel at whatever the speed of light is in the material they're traveling through. That's the highest possible speed for anything moving in that particular material, so it can't be called "slow".
Radio waves travel with the highest speed in vacuum, and slightly slower in air. So they move slightly faster in space than on earth.
The highest energy are the gamma rays.
highest
P waves (PRIMARY Waves) have the highest average velocity as they travel through the earth's materials.
less fetch