Chapter 13 Flashcards
You have discovered a fix for a broken laptop. Before implementing changes, what should you consider, according to the best practice methodology?
The user’s budget
Company reputation
Upgrade feasibility
Corporate policies
D. According to the best practice methodology, you should always consider corporate policies, procedures, and impacts before implementing changes. The user’s budget, company reputation, and upgrade feasibility are not mentioned in the best practice methodology to resolve problems.
When a user turns on his desktop computer, nothing appears on the screen. He hears three long beeps, followed by three short beeps, and three long beeps. What should you do as a next step?
Replace the motherboard.
Replace the RAM.
Replace the CPU.
Look up the beep code on the manufacturer’s website.
D. This system is producing a beep code and not completing the POST process. Different BIOS manufacturers use different beep codes. Look up this beep code on the manufacturer’s website before replacing any hardware.
You are identifying the problem while troubleshooting a network issue. Which of the following are proper steps to help identify the problem? (Choose all that apply.)
Inquire regarding infrastructure changes.
Conduct internal or external research based on symptoms.
Review the system and application logs.
Determine the next steps to resolve the problem.
Question the user and identify user changes to the computer.
A, C, E. The three sub-steps to identify the problem are: Question the user and identify user changes to computer; inquire regarding environmental or infrastructure changes; and review the system and application logs. Conducting internal or external research is part of establishing a theory of probable cause. Determining the next steps to resolve the problem is part of testing the theory to determine cause.
A field technician reports back that the computer she is troubleshooting has exposed distended capacitors. Which component has most likely failed?
Power supply
Motherboard
CPU
RAM
B. Capacitors store energy and are located on the motherboard and inside the power supply. Since the capacitors are exposed, it likely means the technician is seeing the problem on the motherboard. CPUs and RAM do not have capacitors.
You are using the best practice methodology to troubleshoot a video problem. During which step should you question the obvious?
Test the theory to determine cause.
Establish a theory of probable cause.
Identify the problem.
Establish a plan of action to resolve the problem.
B. The second step in the best practice methodology is to establish a theory of probable cause (question the obvious). While it makes sense to question the obvious at all times during troubleshooting, it officially falls under this step in the best practice methodology.
You are solving a problem with a desktop computer that was caused by human error. When is the appropriate time to implement preventive measures, according to the best practice methodology?
When documenting findings, actions, and outcomes
When testing the theory to determine cause
When verifying full system functionality
When questioning the user to identify user changes
C. The fifth step in the best practice methodology is to verify full system functionality and, if applicable, implement preventive measures. This step occurs after a plan of action to resolve the problem has been established and before findings, actions, and outcomes have been documented.
You are troubleshooting a Windows-based desktop computer that is experiencing unexpected shutdowns. Which of the following would be a good next step to resolve the issue? (Choose all that apply.)
Replace the motherboard, CPU, and RAM to see if it resolves the problem.
Replace the RAM to see if it resolves the problem.
Reinstall Windows to see if it resolves the problem.
Replace the CPU to see if it resolves the problem.
B, D. Intermittent shutdowns are hard to troubleshoot but are most likely hardware-related. When troubleshooting, always make one change at a time to try to resolve the issue. Replacing the RAM or the CPU to see if it resolves the problem could be a good next step, but replacing three components at once is too many changes unless you have specific reason to believe it is all three. Reinstalling Windows is probably overkill as well. Narrow down the issue before implementing sweeping solutions such as that.
When a desktop computer boots up, there is no video on the LCD monitor, just a blank screen. The system makes one beep when it powers on, and air is coming out of the case fan. What is the most likely cause of the problem?
The motherboard has failed.
The video card has failed.
The monitor is disconnected.
The CPU or RAM has failed.
C. When troubleshooting, always question the obvious. In this case, the system beeps once, which is usually a signal from the BIOS that POST completed successfully, and air is coming from the system fan. All of that appears to be normal. Check to see that the monitor is connected properly to the desktop computer and that it’s receiving power.
You have implemented a solution that resolved an audio problem on a laptop computer. Following the best practice methodology, what is the next step to take?
Document findings, actions, and outcomes.
Verify full system functionality and, if applicable, implement preventive measures.
Establish a plan of action to resolve the problem.
Review system and application logs.
B. The fourth step in the best practice methodology is to establish a plan of action to resolve the problem and implement the solution, which was done already. The next step is to verify full system functionality and implement preventive measures. The final step is to document findings, actions, and outcomes. Reviewing system and application logs is part of identifying the problem, which is the first step.
You are training a class of new technicians on troubleshooting motherboard issues. Which of the following are issues most likely caused by a failing CMOS battery? (Choose two.)
BIOS time and setting resets
Attempts to boot to the incorrect device
Intermittent device failure
BSOD/pinwheel errors
A, B. When the system is powered off, BIOS settings on a motherboard are maintained by the CMOS battery. If the battery fails, the system will likely forget the BIOS time and date settings and the boot order configuration. Replacing the CMOS battery will resolve the issue.
A desktop computer is experiencing continuous reboots. It gets to the BIOS screen and then reboots every time. Which two components are most likely to cause this problem? (Choose two.)
Power supply
RAM
CPU
Motherboard
C, D. Continuous reboots are most likely caused by the motherboard or CPU failing. It’s possible it’s the RAM, but less likely. The power supply is the least likely cause of the problem in this scenario.
You have fixed a printer problem and verified full functionality. What is the next step to take in the best practice methodology?
Document findings, actions, and outcomes.
Conduct internal or external research.
Review system and application logs.
Establish a theory of probable cause.
A. After verifying full system functionality and implementing preventive measures as needed, the final step in the best practice methodology is to document findings, actions, and outcomes.
A user pushes the power button on her desktop computer but nothing happens. She double-checks that it is plugged in and that the wall outlet is working properly. Which components are most likely to cause this problem? (Choose two.)
Power supply Motherboard Power cord CPU RAM
A, C. If the wall outlet is functioning and the power cable is connected properly (always check the obvious), then the most likely culprits are the power supply or the power cord. The motherboard, CPU, and RAM are unlikely to cause a complete power failure in a computer.
A technician who has been troubleshooting a computer tells you that the system is having problems with overheating. Which component is most likely to cause this issue?
Power supply
Motherboard
CPU
RAM
C. The processor runs the hottest of all computer components and is the most likely to overheat. Motherboards and RAM don’t generate a lot of heat. Power supplies most often have fans to help dissipate heat, and don’t run as hot as CPUs.
You turn on a desktop computer and it fails to boot. You hear a rhythmic ticking coming from inside the case. What is most likely the problem?
Failed hard drive Failed motherboard Failed CPU Failed RAM A bomb
A. Only components with moving parts can make ticking or clicking noises. (Bombs can too, but hopefully you recognized that as a fake answer!) This question assumes that the hard drive is an HDD and not an SSD, but none of the other components would make a ticking noise.
