Freq times Wavelength = speed of light. Amplitude in totally independent.
Microwave oven is used to create microwave radiation of suitable freq....
freq x wavelength = c (light speed)
i guess its the freq diff bet'n "rayleigh line" and "raman lines" ... but can anyone explain what the terms in quotes mean............?
subsonic is lower than 20Hz, and hypersonic(aslo called ultrasonic freq.)is higher than 14000Hz-16000Hz(you cant hear ultrasonic freq.,some people hear 50-14000,some 150-16000, even some like me hear 20-16500)my specter of hearing freq.is 32-16347Hz(I have been on tests)
to produce freq in the range of ghz tat is microwave freq range
freq range over which PLL can track input variation
Freq. or FREQ.
freq range of rf is 3hz (extremely low frequency) to 300Ghz (extremely high frequency)
the difference between the source freq. and the reference freq
Freq - album - was created in 1984-08.
here is the formula modulation index=peak freq deviation/operating freq. frm this we can calculate freq dev
6 t flip flops are needed ( to connected as in asynchronous counter), 1st t ff o/p freq will be same as i/p clk, 2nd t ff o/p freq will be half of i/p freq, and 3rd ones o/p freq is i/p freq divided by 4...... so the o/p freq of 6th ff will be i/p freq divided by 32.
number = myfirstfunction (text, freq); // The first function, where "text" is a string, // and "freq" is the array that is filled with data mysecondfunction (number, freq); // The 2:nd function where the value from the previous // function is being used, and the array "freq" is // bring printed.
There are quite a few of them but here are the most popular: BlueTooth 802.15 Freq 2.4Ghz Speed 1Mbps WireLess Networking: 802.11a Freq 5Ghz Speed 54Mbps 802.11b Freq 2.4Ghz Speed 11Mbps 802.11g Freq 2.4Ghz Speed 54Mbps
cat 3, freq and bandwidth 16MHz cat 5, freq and bandwidth 100MHz cat 6, freq and bandwidth 200MHz
An amplitude modulated signal consists of a CW (continuous wave) at the carrier frequency, plus two components for each frequency in the modulating information. The two components are separated from the carrier by a frequency equal to the modulating frequency, with one above and one below the carrier frequency. Thus, the modulating information appears twice in the spectrum of the modulated signal.