This section introduces you to operating systems and gives you practice using both the Windows and iOS interfaces. After finishing this section, you should be able to:
Identify common operating systems, including systems designed for mobile devices.
Describe the basic functions of different types of operating systems.
Identify and describe components of the Windows 10 operating system.
Change display settings in Windows.
Use the Settings app to view system information.
Configure a screen saver through the Settings app.
Describe the purpose of the configuration settings stored in the Windows registry.
Use iOS on a mobile device to check email account settings, Wi-Fi settings, Bluetooth settings, and the iOS version.
How does a malfunction in one part of the computer affect the rest of the system?
What is the most effective way to troubleshoot a problem?
Why should I troubleshoot a problem before implementing a potential solution?
Assignment:
Access the TestOut Courseware through the provided link.
Study 3.6: Hardware Troubleshooting, and complete the 3.6.8, 3.6.10, 3.6.12, and 3.6.14 Lab Activities, as well as the 10 question Exam to complete the Section.
Assigned: February 7th, 2024 Teacher Pacing Due Date: February 8th, 2024 AZ CS Standards: Hardware and Software – HS.CS. HS.1, Troubleshooting – HS.CS.T.1
This section introduces and explains storage devices and file systems. After finishing this section, you should be able to:
Compare and contrast the features of different external storage devices, including hard disk drives, optical drives, flash storage, and solid state drives.
Describe common file system features, including compression, encryption, permissions, journaling, and file naming rules.
Compare and contrast common file systems, such as NTFS, FAT32, HFS, and Ext4.
Describe disk partitioning and formatting methods.
Describe disk maintenance procedures, including defragmentation, repair, and cleanup.
Describe emerging storage technologies.
Install SATA hard drives in a computer.
Connect drives to the motherboard.
Plug in the power connector from the power supply.
Install an eSATA port connector to a computer by connecting the cable to an available motherboard port.
Boot a computer into the BIOS and verify that newly installed hard drives are detected.
Initialize new disks using the MBR partition style.
Create a volume on a disk with a specific volume size, drive letter, file system, and volume label.
Format a flash drive with the FAT32 file system.
Convert a drive to use NTFS instead of FAT32 without destroying any existing data on the disk.
Run Disk Cleanup on a local hard drive.
Configure disk defragmentation to run on a schedule.
I can demonstrate my understanding of PC Hardware fundamentals by disassembling a PC, inventorying the parts and successfully reassembling the PC so that I can better understand the internal hardware architecture of a common PC.
This week, we will visit the lab, where each student will be allowed to pick out a PC to use in their lab activities throughout the year.
Each student should first assemble their PC, connect it to power, boot to the Windows operating system and confirm that it is in working order.
Examine the computer and peripheral components, front and back.
In a Google Doc or Form, create an inventory list of the external components. Provide the component name, manufacturer, description, characteristics and any identification numbers available (serial #, part #, model #).
Observe the boot process and determine the following information:
What is the speed of the CPU?
How much RAM is installed?
Next, each student will open up their PC, and remove and inventory (record any available information such as manufacturer, model, serial # and capacity) all easily removable components:
Hard Drive
Optical Drive (DVD-Rom)
RAM sticks
Power Supply Unit
Motherboard
Acquire a philips head screwdriver from the tool cabinet and proceed to carefully remove the heatsink assembly, exposing the CPU.
Use the cleaning equipment provided to remove the old thermal paste from the CPU and the heatsink assembly, and will acquire a tube of thermal paste to apply fresh thermal paste to the CPU. Use the How to Apply Thermal Paste video as a guide on the correct method for the application of thermal paste, and take care not to waste the provided materials.
Proceed to carefully remove the motherboard and power supply.
Use canned air to clean the PC case of lint and debris to ensure optimal airflow.
Reassemble the PC and its external peripherals, and reboot it to test its operation.
Submit the completed PC Inventory document to the Google Classroom assignment labeled “Section 3.3 Lab” by Friday, February. 2nd.
Assigned: January 30th, 2024 Due Date: February 2nd, 2024 AZ CS Standard: Hardware and Software – HS.CS. HS.1
This section introduces and explains common internal PC components. After finishing this section, you should be able to:
Describe the most common internal components of a typical computer system, including processor, RAM, motherboard, power supply, GPU, NIC, and cooling system.
Distinguish between the two main types of consumer-level CPUs.
Describe how computer processors execute instructions.
Follow guidelines to reduce electrostatic discharge when working with computers.
Identify various types of expansion slots on a motherboard.
Install a single memory module on the motherboard.
Disconnect a monitor from the video card and remove the card from the computer.
Install a video card with an HDMI connection and connect the PCIe power connector to the video card.
Connect a computer to a monitor using an HDMI cable.
Configure a monitor’s display resolution for full HD content
This section describes different types of computing devices. After finishing this section, you should be able to:
• Compare and contrast the features of various computing devices, including cost, screen size, computing power, portability, storage capacity, cases and form factors, and digital cameras. • Recommend computing devices based on user requirements.
This section explains how digital media is encoded, compressed, and stored in different file formats. After finishing this section, you should be able to:
• Describe how audio and video are stored digitally. • Distinguish between raster and vector images. • Select the best format for digital images. • Describe how RGB values determine pixel color. • Compare common image file types. • Describe the most common digital audio and video file formats. • Describe how 3D modeling is used for computer graphics. • Describe the difference between lossless and lossy compression algorithms. • Discuss how sampling rate and bit depth impact the quality of digital audio. • Discuss how file compression and image resolution impact the quality of digital images.
