What determines the speed of a computer?
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What determines the speed of a computer?
The processor or CPU is one of the main components of a computer. The overall speed of a computer or “clock speed” of a computer is usually determined by how fast it processes data. The more capable your computer is at processing, and executing more instructions per second will determine how fast your computer is.
Does the speed of an electron have an upper limit?
Answer and Explanation: No, the speed limit of c for an electron does not put an upper limit on the momentum of an electron. There is however, a velocity limit here. v
What is the speed of computer measured in?
The clock speed of computers is usually measured in megahertz (MHz) or gigahertz (GHz). One megahertz equals one million ticks per second, and one gigahertz equals one billion ticks per second. You can use clock speed as a rough measurement of how fast a computer is.
What affects the speed of electrons?
As you add energy to the electron, it will go faster, but as you get it to go close to the speed of light, you find that you have to add even more energy just to bump it a bit faster.
What determines computer speed processor or RAM?
Memory Speed: The amount of time that it takes RAM to receive a request from the processor and then read or write data. Generally, the faster the RAM, the faster the processing speed. With faster RAM, you increase the speed at which memory transfers information to other components.
Which of the following is not part of computer?
anyway the keyboard,monitor,the mouse are not hardware parts of computer.
Does electron speed vary?
The rate can vary, and the amount of current in the conductor is a function of the average speed of the electrons in it. Not true. Electrons travel at about c/3, but the speed of the electrons is not the same thing as the speed of the signal.
Do all electrons have same speed?
No. In fact, since there are no trajectories in quantum mechanics, it is hard to even say what an electron’s ‘speed’ even is. Besides: when it is close to the nucleus, you should expect it to move quickly, when it is far away, more slowly. But it is still very much subject to quantum fluctuations.