Smart Grids and Energy Storage Systems: Powering the Future of Energy In today’s rapidly evolving energy landscape, traditional power grids are being replaced by more intelligent, efficient, and sustainable systems. Smart grids combined with energy storage systems (ESS) are transforming how electricity is generated, distributed, and consumed — paving the way for a cleaner, more reliable energy future. What is a Smart Grid? A smart grid is an advanced electricity network that uses digital communication, sensors, and automation to monitor and manage the flow of electricity. Unlike traditional grids, smart grids can: Detect and respond to changes in electricity demand in real-time. Integrate renewable energy like solar, wind, and hydro. Improve efficiency by reducing energy losses. Key technologies in smart grids include: Smart meters for accurate energy usage tracking. Automated control systems to manage power distribution. Data analytics for predictive maintenance and demand forecasting...
1) What is the first step in problem-solving? A) Writing code B) Debugging C) Understanding the problem D) Optimizing the solution Answer: C 2) Which of these is not a step in the problem-solving process? A) Algorithm development B) Problem analysis C) Random guessing D) Testing and debugging Answer: C 3) What is an algorithm? A) A high-level programming language B) A step-by-step procedure to solve a problem C) A flowchart D) A data structure Answer: B 4) Which of these is the simplest data structure for representing a sequence of elements? A) Dictionary B) List C) Set D) Tuple Answer: B 5) What does a flowchart represent? A) Errors in a program B) A graphical representation of an algorithm C) The final solution to a problem D) A set of Python modules Answer: B 6) What is pseudocode? A) Code written in Python B) Fake code written for fun C) An informal high-level description of an algorithm D) A tool for testing code Answer: C 7) Which of the following tools is NOT commonly used in pr...