CompTIA A+ Core 1 (220-1201) FAQ

March 29, 2026 8 min read

Get current A+ Core 1 answers on exam format, PBQs, study strategy, hardware emphasis, and the difference between Core 1 and Core 2.

On this page

A+ Core 1 questions are easiest when you read them as field-service decisions: what is the least disruptive next check, which component or standard best fits the symptom, and which answer would make sense for a junior support role rather than a full redesign.

V15: CompTIA’s current A+ product version. Core 1 and Core 2 must both come from this same version family.

PBQ: Performance-based question that asks you to apply troubleshooting or configuration logic instead of only recalling a fact.

Fast facts

Item	Current Core 1 signal
Exam code	`220-1201`
Product version	`V15`
Time	`90 minutes`
Question count	`Maximum of 90`
Passing score	`675` on a `100-900` scale
Item types	single-response, multiple-response, drag-and-drop, and PBQs

What does Core 1 (220-1201) actually cover?

Core 1 emphasizes endpoint hardware, mobile devices, networking fundamentals, virtualization & client cloud, and troubleshooting. Expect practical knowledge of components, connectors, ports, Wi-Fi standards/security, storage (SATA/NVMe), RAID basics, printer workflows (laser), and methodical problem-solving.

How is Core 1 different from Core 2?

Core 1 (220-1201): hardware, networking, mobile, printers, client virtualization, troubleshooting.
Core 2 (220-1202): operating systems, security, software troubleshooting, operational procedures.

You must pass both to earn CompTIA A+. Order doesn’t matter.

Do PBQs appear on Core 1?

Yes. On the current 220-1201 exam, CompTIA includes performance-based questions (PBQs) alongside standard question types. Expect drag-and-drop wiring, port matching, printer flows, or simple triage tasks. If a PBQ is slow, skip and return. Don’t let one item burn your clock.

How many questions and how long is the exam?

As of March 29, 2026, CompTIA lists the current A+ Core 1 220-1201 exam at a maximum of 90 questions, a 90-minute testing window, and a 675 passing score on the 100-900 scale. Expect a mix of single-answer, multiple-response, drag-and-drop, and performance-based questions. Budget time for check-in and keep a 5-10 minute buffer to review flagged items.

What languages does CompTIA currently list for 220-1201?

CompTIA currently lists English, German, and Japanese for Core 1 220-1201. Recheck the official page near booking time because language availability can change.

Which hardware topics should I master first?

Core components: motherboard form factors, CPU sockets, RAM types (DDR generations), PSU wattage/rails, cooling/airflow.
Storage: HDD vs SSD, SATA vs NVMe (M.2 PCIe), form factor vs interface vs protocol.
Peripherals: USB generations and connectors (A/C), display standards (HDMI/DP/DVI/VGA), Thunderbolt 3/4.
BIOS/UEFI basics: boot order, secure boot, firmware updates—when and why.

What storage and RAID knowledge is most testable?

RAID 0/1/5/10 concepts (performance vs redundancy; disk counts; one-disk fault tolerance for RAID 5).
SMART monitoring and symptoms of failing drives.
File systems: NTFS vs exFAT vs FAT32 (use cases).

Ports & protocols—what do I really need to memorize?

Know the common set cold: HTTP/HTTPS (80/443), SSH (22), FTP/FTPS/SFTP (21/990/22), SMTP/Submission (25/587), POP3/IMAP (+TLS 995/993), RDP (3389), DNS (53), DHCP (67/68), SNMP (161/162), LDAP/LDAPS (389/636). Practice with flashcards until instant.

Ethernet cabling—how deep does it go?

Standards: 100BASE-TX, 1000BASE-T, 10GBASE-T and their Cat requirements/distances.
Cables/connectors: Straight-through vs crossover (legacy), crimping pinouts (awareness), PoE basics.
Fiber: MMF vs SMF (range), LC/SC connectors, handling/cleaning best practices.

Wi-Fi & SOHO networking—what’s expected?

Standards: 802.11n/ac/ax; bands (2.4/5/6E), channel width basics, MIMO/MU-MIMO (awareness).
Security order: WPA3 → WPA2 (AES/CCMP) → WPA (TKIP) → WEP (avoid).
SOHO hardening: change defaults, set WPA2/3-Personal, strong passphrase, firmware updates, disable WPS.
Troubleshooting tells: APIPA → DHCP issue; names fail but pings by IP work → DNS issue.

Printers: which details matter most?

Laser process order: Processing → Charging → Exposing → Developing → Transferring → Fusing → Cleaning (memorize in order).
Common defects & first steps: streaks/lines → drum/fuser; ghosting → fuser/drum discharge; jams → rollers/path/humidity; faint output → toner/transfer roller.
Maintenance items: toner, drum, fuser, transfer roller, rollers—know roles and symptoms.

Mobile devices—what depth does the exam expect?

Phone/tablet hardware basics (batteries, displays, ports) and accessories (NFC, Bluetooth profiles).
Tethering vs hotspot, Wi-Fi calling; basic triage: Safe Mode (Android), DFU/Recovery (iOS), cache/data clear, battery health.

Virtualization & cloud on Core 1—how far do I go?

Type 1 vs Type 2 hypervisors; VM resources (vCPU, RAM, NICs).
Snapshots ≠ backups; short-term checkpoints only.
Client cloud use cases: storage sync (OneDrive/Drive), thin clients, VDI awareness.

What command-line tools should I know for Core 1?

Networking: ipconfig /all, ping, tracert, nslookup.
Shares: net use.
Disk/system health: chkdsk, diskpart, defrag (HDD), sfc, DISM (awareness).
Logs: Event Viewer (System/Application) to correlate symptoms.

How should I approach troubleshooting questions?

Use the six-step method and choose the least intrusive, safest, reversible next step:

Identify the problem (gather, duplicate, ask what changed).
Establish a theory of probable cause.
Test the theory to confirm the root cause.
Plan and implement the fix.
Verify full functionality; implement prevention.
Document findings/actions/outcomes.

If two answers both sound right, how should I break the tie?

Use these tie-breakers:

choose the answer that stays in the correct fault lane
prefer the least intrusive useful next step
keep shared-printer defects separate from print-engine defects
keep DNS, DHCP, gateway, and Wi-Fi issues separate instead of calling them all “networking”
respect support scope instead of jumping to a full rebuild

What are classic Core 1 “gotchas”?

APIPA (169.254.x.x) → DHCP scope/reachability/relay or VLAN path.
Duplicate IP → intermittent disconnects.
Names fail but IP works → DNS first, not cabling first.
NVMe not detected → seating, PCIe lanes/BIOS; boot order/UEFI vs Legacy.
Display issues → cable/port, driver, correct input, power/backlight.
Printer ghosting vs streaks—know which component to suspect first.

What’s a smart lab plan for Core 1?

SOHO router lab: change admin defaults, WPA2/3-Personal, DHCP reservations, test 2.4 vs 5/6 GHz, channel selection.
Storage drills: add a SATA SSD; initialize/partition/format; read SMART; compare NTFS vs exFAT.
Cable sanity: identify Cat5e/6/6a, crimp a practice cable (if gear available), use a cable tester.
Printer maintenance: replace toner/drum and fix a staged jam (with vendor guides).
CLI reps: run ipconfig, ping, tracert, nslookup, net use, chkdsk, sfc.

What safety/ESD practices do I need to remember?

ESD: wrist strap to ground, antistatic mat, handle boards by edges, store in ESD bags.
Power: unplug and discharge before servicing; use surge protectors/UPS for critical devices.
Toner cleanup: cold water; ESD-safe vacuum.
Ergonomics: proper lifting, cable management, avoid trip hazards.

How much do I need to know about BIOS/UEFI settings?

Basics only: boot order, Secure Boot, enabling/disabling devices, XMP/DOCP memory profiles (awareness), and firmware updates when necessary for stability or compatibility (perform with caution).

What are the best ways to memorize ports/cables/Wi-Fi?

Daily micro-drills (10–15 flashcards).
Group by theme (web/mail/remote/infra).
Compare/contrast tables (Cat6 vs 6a; 802.11ac vs 802.11ax).
Teach aloud—if you can explain it clearly, you’ve learned it.

Any guidance on time management and PBQs?

First pass fast (~60–70 seconds per MC item).
Skip and flag PBQs if they’re time sinks; finish MC, then return.
Keep a 5–10 minute buffer for flagged items and PBQs at the end.

How long should I study—and how should I structure it?

From some experience: 3–4 weeks. From near-zero: 5–6 weeks with labs. Suggested cadence:

Week 1: Hardware + storage/RAID; 20-question drills daily.
Week 2: Networking/Wi-Fi + ports; mixed sets midweek.
Week 3: Printers + mobile + virtualization; first PBQ practice.
Week 4: Two full mocks; convert misses into 2-bullet rules and re-drill.

Which pages should I use in the last week?

Use the guide like this:

study plan for pacing and miss routing
cheat sheet for quick recall and high-confusion pairs
glossary only when terms are blurring together
resources for current official exam links before booking

What are “2-bullet rules,” and why use them?

They’re short, sticky heuristics made from your misses:

APIPA → DHCP path before cables.
Ghosting → fuser/drum; streaks → drum/toner.
5/6 GHz for throughput; disable WPS. Use them right before practice sets and on exam day for quick recall.

Should I memorize exact throughput numbers (Wi-Fi/Ethernet)?

Know orders of magnitude (e.g., 1 Gbps for 1000BASE-T; 10 Gbps for 10GBASE-T) and relative differences (ac vs ax, Cat6 vs 6a). Perfect PHY maxima matter less than picking the right standard/security for the scenario.

What do I do when a symptom has multiple plausible causes?

Apply the six-step method and pick the least intrusive reversible step that best tests your theory. For example, name resolution fails: check DNS settings before replacing cables.

Any final exam-day tips?

Sleep, hydrate, and arrive early.
Read the stem’s final question if the preface is long—aim your reading.
Eliminate answers that violate safety, least-privilege/least-intrusion, or basic networking logic.
Keep calm; use your 2-bullet rules and revisit flagged items with fresh eyes.

Where should I go after this FAQ?

Use the study plan if you still need pacing, the cheat sheet for rapid review, and the resources page to confirm current official CompTIA details before booking.

Quick readiness checklist

I can match ports ↔ protocols instantly.
I can choose the correct cable/connector (Cat6 vs 6a, LC vs SC, HDMI vs DP).
I know 802.11 generations and WPA2/WPA3 setup basics.
I can recite the laser printing process and map symptoms → components.
I can explain RAID 0/1/5/10 in one sentence each.
I can run ipconfig/ping/tracert/nslookup and interpret outputs.
I follow a six-step troubleshooting method and pick the least intrusive next step.

Quiz

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