of course, through our mind because without our mind computer is useless.
Computer is called a diligent machine because it can perform the data processing always at the same ration........
Computer is called a diligent machine because it can perform the data processing always at the same ration........
I've taken part in a research study and it consisted of me filling out questionnaires, doing tasks on a computer, having a MRI scan whilst doing the same computer tasks, and being interviewed, but there are many different types of research projects.
yes if you are performing actions with an infected computer, as loong as you share the same printer your computer will not become infect.
Yes, They Can..
Same as today without computer tracking
Knowing some basic knowledge of computer programming is useful for when you want to repeat tedious tasks. Instead of doing the same action over and over, you can write a script or an application to do it for you.
AnswerA server?A car engine management computer?A SIM card, and a Smart Card
No Programs can function (run) without first being loaded into the computer's Memory. Once loaded, Instructions can be addressed and performed. The same is true for Data. It is first read from its source and them loaded into Memory.
A computer is a programmable machine that receives input, stores and manipulates data, and provides output in any other computer can perform. Therefore computers ranging from a netbook to a supercomputer are all able to perform the same computational tasks, given enough time and storage capacity
The same way you walk on clouds.
Vector and scalar processors also differ in their startup times. A vector processor often requires a prolonged startup of the computer because of the multiple tasks being performed. Scalar processors start a computer in a much shorter amount of time, since only single tasks are being executed. The superscalar processor takes elements of each type and combines them for even fasterprocessing. Using instruction-level parallelism, superscalar processing can perform multiple operations at the same time. This allows for the CPU to perform much faster than a basic scalar processor, without the additional complexity and other limitations of the vectorprocessor. There can be problems with this type of processor, however, as it must determine which tasks can be performed in parallel and which are dependent on other tasks being completed first. Vector and scalar processors are still used on a daily basis. Some video game consoles, for example, use a combination of both vector and scalar processors. Vector processing is seen to have promise when dealing with multimedia tasks in which one instruction can address the large amount of data required for video and audio.