Input-output analysis is a method used to study the interdependencies between different sectors of the economy. Its major purposes include understanding how changes in one sector affect others, identifying key sectors for economic development, and assessing the overall economic impact of policy changes or external shocks. This analysis can help governments and businesses make informed decisions to promote economic growth and stability.
input processing storage output
input, output, memory, processing unit, arithmetical unit
A computer generally has four major components: Input device, Output device, Storage, CPU
Managing programs Managing Memory Handling input and output User Interface
input port, output port, routing processor, switching fabric
Managing programs Managing Memory Handling input and output User Interface
An IO (Input/Output) module allows a computer to interact with external devices by controlling input and output signals. It acts as an interface between the computer's central processing unit (CPU) and external devices such as sensors, actuators, and other hardware components.
One major advantage of feedforward controls is that it prevents large disturbances in your output. A disadvantage is that it may not account for all potential disturbances in the input, leading to large disturbances in the output.
CPU is neither an input device nor an output device. It is the central processing unit. Unit which takes inputs from input devices like keyboard, mouse, sound input etc. does the processing as per the application running on the machine and gives an output to output devices like screen display, a printer or sound output.
Three major components of a computer would be in no particular order: Graphics card, processor, and the mother board. However, there are many other major parts to a computer. i think there ais no 3 major parts on a computer...i think your asking the 3 components...i.e software,hardware and user...because if you say the part all parts are important and can be consider major...
Type your answer here... APPLICATIONS OF Z TRANSFORM· Application of the z Transform to the Analysis of Linear Discrete Systems.· Application of the z Transform to the Simulation of Continuous Systems.· Application of the z Transform to the Analysis of Digital Filters.· Application of the z Transform to the Analysis of Discrete Signals.he z Transform to the Analysis of Digital Filters.One of the major applications of the z-transform is used as an analysis tool for discrete-timeLTI systems. In particular, we will use the z-transform for finding the frequency responseand evaluating the stability of discrete-time LTI systems.From the convolution property of z-transform, we have the relationship between the ztransformsof input and output sequences of a discrete-time LTI system asY(z) = H(z)X (z)where X (z), Y(z) and H(z) are the z-transforms of the system input, output and impulseresponse, respectively. H(z) is referred as the system function or transfer function of thesystem.
There is a major difference between DEVICE and SOFTWARE. Input, or Output Device is a physical part of computer. Input Device Examples: Mouse, Keyboard, Scanner etc. (Cause you can Input the informations to the computer by any of those.) Output Devices Examples are those, you receive informations from Your PC. (i.e. Screen, Printer, Speakers etc.) I wont explain you the difference between the software (programs) and hardware (devices) cause it's just hard enough to answer this one. Its just one click in google away.