Wavelength = (speed) / (frequency) If this is a 1 KHz sound wave in air, speed = approx 343 meters/sec Sound wavelength = (343 / 1,000) = 0.343 meter = 34.3 cm If this is a 1 KHz radio wave, speed = approx 300,000,000 meters/sec E & M wavelength = (300,000,000 / 1,000) = 300 Km
wavelength. This is because frequency and wavelength have an inverse relationship, meaning as frequency increases, wavelength decreases. This relationship is described by the equation speed = frequency x wavelength, where speed is the speed of light in a vacuum.
The frequency of a wavelength is inversely proportional to its wavelength. This means that as the wavelength increases, the frequency decreases, and vice versa. This relationship is described by the formula: frequency = speed of light / wavelength.
There are probably several equations that involve wavelength. One that is quite common is:speed = wavelength x frequency
No, frequency and wavelength are inversely related in a phenomenon called the wavelength-frequency relationship. As the wavelength increases, the frequency decreases, and vice versa. This relationship is described by the equation: Speed = Frequency x Wavelength.
"Wavelength" is a noun.
If you have an RF (Radio Frequency) signal of 1MHz and you modulate it with a signal of 1kHz you end up with three frequencies 1MHz - 1kHz 1MHz 1MHz + 1kHz The carrier is 1MHz. The lower side band is 1MHz - 1kHz or 999kHz while the upper side band is 1MHz + 1kHz or 1.001MHz kHz is thousand cycles per second MHz is million cycles per second
1 ms
The period is 1 millisecond.
1kHz
Well, isn't that just a happy little question! A 1kHz CPU can execute 1,000 instructions per second. Just imagine all those little instructions dancing around, bringing your computer to life with each gentle step. It may not be the fastest, but it's doing its best, and that's all we can ask for.
no , 1hz is 1 oscillation , 1000hz ( 1khz ) is 1000 oscillations !
1khz you get 2000 zero crossings per sec or .5 ms between zeros depending on which zero crossing you pick it may be .25ms or .75ms to the max or min for ten khz .05ms between zeros .025ms or .075ms
What Wavelength
You would have to know the medium and the type of wave.For example a sound wave with a period of 10 seconds would be well down in the infrasonic. In sound, a 1kHz wave has a wavelength of ~1 ft. A 1 Hz wave would have a wavelength of ~1000 ft. A 0.1Hz wave has a wavelength of ~10 000ft.BUT, if it were a compression wave in an earthquake, one would be dealing with swampy ground.A wave at sea in deep water (mid Pacific or mid Atlantic) could have such a period. An e-m wave of 0.1Hz would have a wavelength well towards our Sun.And not all media have a uniform wave velocity. e-m waves at very low frequencies travel much slower than the common ones - at least around the earth. And you know that all colours of light do not travel at equal speeds in glass.
In theory it can but requires infinite bandwidth. A square wave (or pulse) is a combination of the fundamental frequency and the odd harmonics. If you send a square wave of 1kHz, you need to also be able to send 3kHz, 5kHz, 7kHz, 11kHz ....... etc. Since the bandwidth allowed for most SSB transmissions only allow up to 3kHz bandwidth, all you get is the fundamental of a 1kHz sin wave. On the other hand, if you send a 200Hz tone you can send 200Hz, 600Hz, 1kHz, 1.4Hz, 1.8Hz, 2.2kHz 2.6kHz and this combination will look a lot more like the original 200Hz square wave tone.
wavelength. This is because frequency and wavelength have an inverse relationship, meaning as frequency increases, wavelength decreases. This relationship is described by the equation speed = frequency x wavelength, where speed is the speed of light in a vacuum.
wavelength = velocity/ frequency wavelength = 330/256 wavelength = 1.29 (to 3 sig fig) 1.30