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Brief Questions and Answers (3 marks each)
What is the Input-Processing-Output (I-P-O) model?
What are the components of the I-P-O model?
What does the 'Input' component refer to in the I-P-O model?
What is involved in the 'Process' component of the I-P-O model?
What does the 'Output' component represent in the I-P-O model?
Why is the Input-Processing-Output model important?
How does the 'Input' component interact with the 'Processing' component?
What role does the 'Processing' component play in the I-P-O model?
How does the 'Output' component relate to the 'Input' component?
What is the purpose of breaking down problems into the I-P-O model?
Can the I-P-O model be applied to all types of computer systems?
How does the I-P-O model help in designing computer systems?
What considerations are important when defining the 'Input' component?
What factors influence the 'Processing' component?
How can the effectiveness of the 'Output' component be evaluated?
How does the I-P-O model facilitate troubleshooting in computer systems?
What is the relationship between 'Input' and 'Output' in the I-P-O model?
How can the I-P-O model be used to improve system performance?
What are the benefits of using the I-P-O model in system analysis?
How does the I-P-O model apply to software development?
Can the I-P-O model be used for non-computer systems?
What are common challenges when implementing the I-P-O model?
How can the I-P-O model be applied to problem-solving in real-world scenarios?
What tools or techniques can be used to analyze the I-P-O model?
How does the I-P-O model support effective system design?
What role does the environment play in the I-P-O model?
How can understanding the I-P-O model help with system optimization?
What is the significance of the 'Processing' component in the I-P-O model?