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Why is it more accurate to describe the CPU and motherboard bus using the term frequency rather than the speed?
The faster the CPU can push data around the motherboard is mesured as a frequency
Why is it more accurate to describe the CPU and motherboard bus using the term frequency rather than speed?
Because the term speed implies a continuous flow, while the term frequency implies a digital or binary flow.
Why is it more accurate to describe the CPU using the term Frequency rather than speed?
Frequency is a quantitative measure of the speed of a CPU. So it's much more specific than the other options of scales of 1 to 10, or slow, medium, and fast.
How would you describe the wavelength of a wave with low speed but high frequency?
The wavelength of a wave with low speed but high frequency would be short.
What is the common frequency of a system bus on the motherboard?
There is no "common" frequency. As new technology develops, the speed of the front side bus and newer system buses continuously increases.
Why is it more important to describe the CPU and the motherboard bus using the term frequency rather then speed?
The CPU and the Motherboard bus(called the Frontside Bus) run at 2 different speeds. The Frontside bus runs at the speed that was specified for that particular motherboard and is powered by a crystal that sends electronic pulses over the bus at a steady rate. For instance you're bus speed may be 100MHz. But your CPU speed may be 800Mhz. The reason is that the CPU manufactorer build in a multiplier into the CPU to make it faster. In the example I just gave you, the multiplier is 8x. So 100MHz bus speed times 8 = 800MHz CPU speed. Now if you want to figure out the throughput you multiply the CPU speed (800MHz by 8(8 byes). And you have the throughput of 1600MB or 1.6GHZ. If you bought a PC with these calculations it would be a PC1600. Finally, the reason it is 8 bytes is because motherboard bus these days send data in 64-bit chunks which is 8 bytes.
Describe how the frequency of a wave changes as the wavelength changes?
it is directly proportional to frequency so if frequency increases wavelength also increases
What is the definition of bus frequency?
Bus Frequency- (Also Known as Bus Speed) is the rate (or frequency) at which the data on the motherboard is written and read. :)
Is the cache memory a main component of the motherboard?
Cache memory is not a main component of the motherboard itself; rather, it is typically integrated into the CPU or located close to the processor on the motherboard. It serves as a high-speed storage area that temporarily holds frequently accessed data and instructions to improve overall system performance. While it plays a crucial role in enhancing processing speed, it is considered part of the CPU architecture rather than a standalone component of the motherboard.
What is a clock speed of a motherboard?
Clock speed of a motherboard refers to the frequency at which the motherboard's components, particularly the CPU and memory, operate. It is typically measured in megahertz (MHz) or gigahertz (GHz) and indicates how many cycles per second the processor can execute. A higher clock speed generally allows for faster data processing and improved performance, but it is not the sole determinant of a system's overall speed, as factors like architecture and core count also play significant roles.
The pitch of a sound is determined by its and speed togetheror its frequency alone?
The pitch of a sound is determined by its frequency alone. The speed of sound does not directly influence the pitch, but rather the frequency of the sound wave determines how high or low we perceive the pitch to be.
Describe how to calculate each of wavelength speed and frequency if you know the other two factors What is the wavelength of a 25 hertz wave traveling at 35 cms?
1). Frequency = (speed) / (wavelength)2). Wavelength = (speed) / (frequency)3). Speed = (frequency) x (wavelength)Use #3:Wavelength = (35 cm/s) / (25 Hz) = 1.4 cm
