Neither - the measurement currently in use is gigahertz (GHz). Processors produced today are much more powerful, so it's easier to say 2 GHz than it is 2,000,000 MHz
Almost all modern CPU's are measured in mhz. Most are fast enough to have a ghz rating. Such as 2400 mhz would be 2.4 ghz. This reflects the clock speed default on the CPU.
44,100 Hz or 44.1 kHz
Hertz khz, Mhz etc.......
The Formula is C=B log_2 (1+SNR) = 4000 log_2 (1+1000) = 4000 x 9.9672 = 39868.8.
Its called binary code consist of only 1s and 0s can look anything like this: 111111111 000000000 101010101 110011001 001101010 101010100 001110100 a single one or zero called a bit a line of ones and zeros are called bytes 1012 bytes is a kilobyte or KB 1012 kilobytes is a megabyte or MB 1012 megabytes is a gigabyte or GB 1012 gigabyte is a terabyte or TB In speed they are considered in hertz: Khz Mhz Ghz and in very rare cases Thz
kHz (kilohertz) is a unit of frequency, not a unit of speed.
Almost all modern CPU's are measured in mhz. Most are fast enough to have a ghz rating. Such as 2400 mhz would be 2.4 ghz. This reflects the clock speed default on the CPU.
a kilohertz (or kHz) is a way of measuring speed of a computer. a gigabyte is a way of measuring space on a hard drive, or a RAM drive. 1 kilohertz does not go into a gigabyte. a kilobyte, however, will. in fact, there are 1048576 kilobytes in a gigabyte, but most people round it off to a million.
The wavelength of a sound wave at 17 kHz is approximately 20 millimeters. This can be calculated using the formula: wavelength = speed of sound / frequency.
Very slow, like you can't do anything on your computer. LOL
For any wave, frequency x wavelength = speed (of the wave). In this case, convert the kHz to Hz, then divide the speed of light by this frequency. The speed of light should be in meters/second. The answer will be the wavelength in meters.
Computer screens have higher resolution and precision than TV screens. There are many technologies for both uses. Computer monitors are capable of accepting signals only from the central processing unit of a computer. Therefore they are unable to reproduce a colour image from a composite video signal whose waveform conforms to a broadcast standard (NTSC, PAL, D-MAC, etc.). Computer monitors are fitted with connectors characteristic of data processing systems (eg. DINorDB9/15 also called MINI SUB D15Connectors) and do not have an audio circuit. They are controlled by special adaptors (eg. monochrome or graphic adaptors), which are integrated in the central processing unit of the automatic data processing machine. . Their display pitch size starts at 0.41 mm for medium resolution and gets smaller as resolution increases. Sor to accommodate the presentation of small, yet well-defined images, computer monitors utilise smaller dot (pixel) sizes and greater convergence standards than those applicable to television receivers. In computer monitors, the video frequency (bandwidth), which is the measurement determining how many dots can be transmitted per second to form an image, is generally 15 MHz or greater. But in case of TV or video monitors, the bandwidth is generally not more than 6 MHz. The horizontal scanning frequency of these monitors varies according to the standards for various display modes, generally from 15 kHz to over 155 kHz. Some are capable of multiple horizontal scanning frequencies. Horizontal scanning frequency of video/TV monitors is fixed, usually 15.6 or 15.7 kHz depending on applicable television standard.
The wavelength of a 1 kHz (1 kilohertz) signal in air is approximately 343 meters. This wavelength can be calculated using the equation: wavelength = speed of sound / frequency.
The process gain (or 'processing gain') is the ratio of the spread (or RF) bandwidth to the unspread (or baseband) bandwidth. It is usually expressed in decibels (dB).For example, if a 1 kHz signal is spread to 100 kHz, the process gain expressed as a numerical ratio would be 100,000/1,000 = 100. Or in decibels, 10log10(100) = 20 dB.
radio is simple a band of frequencies from 03 Khz or 30 Khz to 300 Ghz that is used for communication of voice,data etc. in form of wireless. vijai kaushal 09473934386
The speed of a wave is equal to the product of wavelength x frequency. Just convert everything to standard units (wavelength to meters, frequency to hertz), multiply both, and you'll get the result, also in standard units (meters / second).
Wavelength = (speed) / (frequency) =(299,792,458) / (1,240,000) = 241.768 meters