Discover how computers maintain accurate time even when powered off using a Real-Time Clock (RTC) and a battery.
Learn why RAM doesn't retain data when your computer is powered off and what alternatives are available for persistent storage.
Learn why computers are deemed 100% accurate machines and how they execute tasks flawlessly based on binary calculations.
Understand how computer data storage works and what happens when your computer turns off. Learn about volatile and non-volatile memory.
Discover why your computer clock may be inaccurate and learn how to synchronize it effectively using NTP servers.
Discover the process behind running an EXE file and its effects on your operating system.
Learn what contents are erased from volatile memory like RAM when your computer turns off. Save your work to prevent data loss!
Discover whether data in RAM is lost when shutting down your computer and learn how to preserve your work.
Learn why Windows 10 is not a real-time operating system and what sets RTOS apart from regular systems.
Discover why Windows isn't a real-time OS, focusing on its prioritization of general tasks over strict timing.
Discover what determines computer clock speed, including CPU architecture, manufacturing processes, and more.
Explore the pros and cons of Chromebooks, understand their limitations, and find out if they're the right device for you.
Discover which storage types retain data when your computer is turned off, ensuring your files remain safe and accessible.
Discover how computers save data without power using non-volatile memory types like HDD and SSD.
Discover why CPU clock speeds fluctuate and learn about Turbo Boost and Precision Boost for improved performance.
Explore the precision of computer clocks, factors affecting accuracy, and synchronization with international time servers.
Discover why RAM can't save files and learn about the difference between volatile and non-volatile memory.