Top 30 Most Common Electrical Interview Questions You Should Prepare For
Written by
Jason Miller, Career Coach
“Success is where preparation and opportunity meet.” — Bobby Unser
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Getting ready for an electrical-engineering job hunt can feel overwhelming, but walking in armed with the right electrical interview questions changes everything. Knowing why each question is asked, how to craft a compelling response, and which real-world examples resonate most will supercharge your confidence and credibility. This guide delivers exactly that—plus practical CTAs, expert quotes, and actionable tips—so you can turn tough electrical interview questions into career-defining wins.
Electrical Interview Questions Overview
Electrical interview questions span theory, design, safety, teamwork, and personal growth. Whether you’re discussing Ohm’s Law or power-factor correction, interviewers use these questions to uncover how deeply you understand core concepts and how effectively you apply them in real projects.
What are electrical interview questions?
Electrical interview questions are targeted prompts hiring managers use to evaluate your technical knowledge, analytical mindset, and hands-on experience with electrical systems. They cover basics like circuit laws, advanced topics such as renewable integration, and softer skills such as communication. Mastering electrical interview questions ensures you can articulate expertise under pressure, showcase problem-solving, and align with safety and industry standards.
Why do interviewers ask electrical interview questions?
Employers rely on electrical interview questions to predict on-the-job performance. Technical queries test depth of theory, scenario questions gauge troubleshooting skills, and behavioral prompts reveal collaboration style. By probing across these areas, interviewers confirm you can design reliable systems, uphold regulations, and work effectively within multidisciplinary teams.
Preview List: 30 Electrical Interview Questions
What is Ohm's Law?
Define Kirchhoff's laws.
What are the types of electrical conductors?
Explain the difference between series and parallel circuits.
How do you analyze a circuit using Thevenin's theorem?
What is the power factor in electrical systems?
Explain the difference between AC and DC current.
Describe your experience with simulation software in circuit design.
What methods do you use to test and validate your electrical designs?
How do you ensure compliance with safety standards in your electrical designs?
Explain the significance of grounding in electrical systems.
Can you discuss a time when you had to work collaboratively with a team to complete a project?
Describe a situation where you had to communicate complex technical information to a non-technical audience.
How did you become interested in electrical engineering?
Why are you hoping to work for our company?
What are your long-term career goals?
How do you approach troubleshooting a complex electrical system?
What are the most common types of electrical faults, and how do you diagnose them?
How would your coworkers rate your problem-solving skills?
Describe a project where you implemented innovative solutions to improve efficiency or performance.
How do you ensure that your designs are cost-effective while maintaining quality?
What strategies do you use to mentor or guide junior engineers or interns?
What role does sustainability play in your electrical engineering projects?
Can you discuss your experience with renewable energy systems and their integration into existing grids?
Can you explain the role of microcontrollers in modern electrical engineering applications?
Describe your experience with embedded systems and their applications in electrical engineering.
How do you approach risk management in your engineering projects?
How do you prioritize tasks when working on multiple projects simultaneously?
How do you handle tight deadlines and pressure in your work?
How do you stay updated with the latest advancements in electrical engineering technology?
1. What Is Ohm's Law?
Why you might get asked this:
Interviewers open with this foundational topic to confirm you grasp the bedrock of most electrical interview questions. Demonstrating fluency in Ohm’s Law shows you can calculate and predict current, voltage, and resistance relationships—skills essential for design, troubleshooting, and safety analyses across virtually every electrical environment.
How to answer:
Define the law clearly, present the formula I = V / R, and briefly mention practical usage. Tie it to a project—perhaps calculating resistor values or confirming safe current levels. End by noting how mastery of Ohm’s Law underpins more advanced electrical interview questions and real-world problem solving.
Example answer:
“In simple terms, Ohm’s Law states that current equals voltage divided by resistance. I applied this constantly while redesigning an LED driver board last year. Our client wanted higher brightness without overheating the PCB, so I recalculated resistor values, verified the thermal limits, and simulated the outcome in SPICE. Because I understood Ohm’s Law intuitively, I could tweak parameters in minutes, not hours, and validate that the design stayed within safe current thresholds. That quick turnaround saved two prototype spins and impressed our manufacturing partner, proving the law remains my daily go-to tool for reliable circuit design.”
2. Define Kirchhoff's Laws.
Why you might get asked this:
Kirchhoff’s Current and Voltage Laws extend basic theory into network analysis, making them recurring electrical interview questions. Employers want proof that you can analyze multi-loop or node-heavy circuits, ensuring accurate predictions of current distribution and voltage drops in complex products like power supplies or instrumentation.
How to answer:
State each law succinctly: current entering equals current leaving a node (KCL); algebraic sum of voltages around a closed loop is zero (KVL). Illustrate by referencing a hands-on example—maybe diagnosing unbalanced current in a distribution panel. Emphasize the value of these laws when addressing broader electrical interview questions.
Example answer:
“Kirchhoff’s Current Law tells us the currents entering and exiting a node must balance, while Kirchhoff’s Voltage Law requires the sum of all potential rises and drops in a closed loop to equal zero. I relied on both when commissioning a 48-volt telecom rectifier system. After noticing unexpected heat on one branch, I used KCL to trace excessive current to a mis-sized feeder. Then KVL helped me confirm the drop across backup diodes matched design values. By systematically applying both laws, I isolated the fault in under an hour, kept the project on schedule, and reinforced to my team how essential these fundamental principles are.”
3. What Are the Types of Electrical Conductors?
Why you might get asked this:
Materials choice affects efficiency, safety, and cost, so this topic surfaces often in electrical interview questions. Interviewers probe your familiarity with conductors like copper or aluminum to see whether you consider conductivity, weight, corrosion, and price when specifying cables or busbars in real projects.
How to answer:
List common conductors—copper, aluminum, gold, and even graphite in niche uses—and compare their properties. Reference standards such as IEC ampacity tables. Stress how selecting the right conductor optimizes performance and budget, demonstrating you can make nuanced decisions beyond textbook answers.
Example answer:
“Copper remains the industry standard because of its high conductivity and mechanical strength, but I often specify aluminum for overhead feeders where weight reduction matters. In one solar farm build, shifting to aluminum saved 15 % on cable costs without compromising efficiency, thanks to appropriately upsized cross-sections. For critical signal paths on a high-frequency PCB, I chose gold-plated pads to resist oxidation and maintain low contact resistance. Balancing material properties, environmental factors, and standards lets me deliver designs that meet performance goals while controlling costs—an outcome interviewers look for in robust electrical engineering.”
4. Explain the Difference Between Series and Parallel Circuits.
Why you might get asked this:
Distinguishing series from parallel is elementary yet vital, cropping up in many electrical interview questions about load balancing, fault isolation, and redundancy. Showing you can quickly contrast current flow, voltage distribution, and failure modes reassures hiring managers you can design reliable circuits under practical constraints.
How to answer:
Highlight that in series, current is consistent while voltage divides; in parallel, voltage is equal while current splits. Provide numerical or project-based proof, like LED strings or parallel battery banks, explaining why you chose one configuration over the other.
Example answer:
“In a series circuit the same current flows through each component, so if one element fails open, the entire path breaks—think of old Christmas lights. I used this trait intentionally when chaining 20 LEDs so current regulation stayed simple. In a recent battery-backup design, however, I wired cells in parallel to keep voltage constant and extend amp-hour capacity; one weak cell wouldn’t take the system offline. Being able to choose series or parallel wisely directly impacts reliability and maintainability, which is exactly what interviewers aim to uncover.”
5. How Do You Analyze a Circuit Using Thevenin's Theorem?
Why you might get asked this:
Thevenin’s theorem streamlines complex networks into a single voltage source and resistor, a capability vital when tackling advanced electrical interview questions around load variations or sensor interfacing. Recruiters use it to see whether you can simplify, solve, and optimize without getting lost in sprawling schematics.
How to answer:
Outline the steps: deactivate independent sources, calculate equivalent resistance, find open-circuit voltage, then reconstruct the simplified model. Reference a time you used Thevenin to match a sensor’s impedance or predict load changes.
Example answer:
“When integrating a pressure sensor into a PLC, its 5 kΩ input complicates signal accuracy. I isolated the sensor terminals, zeroed sources, and found the network’s 1.2 kΩ resistance. Next, I measured 2.8 V across the open terminals. Converting the entire web into a 2.8 V source with 1.2 kΩ series resistance let me simulate different loads quickly in SPICE. The outcome? I added a simple buffer amplifier instead of redesigning the whole board—saving two weeks. Applying Thevenin shows I can cut through complex circuits and keep projects efficient and on track.”
6. What Is the Power Factor in Electrical Systems?
Why you might get asked this:
Power factor blends real and reactive power, influencing utility costs and energy efficiency—topical in many electrical interview questions. Interviewers expect you to understand why low power factor strains generation assets and how correction methods cut waste and penalties.
How to answer:
Define power factor as the cosine of the phase angle between current and voltage, or real power divided by apparent power. Discuss causes of lagging power factor (inductive loads) and remedies like capacitor banks or VFDs. Provide a cost-saving anecdote.
Example answer:
“At a food-processing plant I audited, the power factor hovered around 0.72 due to dozens of induction motors. By installing automatic capacitor banks sized to 400 kVAR, we pushed it to 0.95, cutting annual utility surcharges by nearly $18,000. I monitored harmonics to avoid resonance and verified improvement with a power analyzer. Understanding power factor helps me design systems that are energy-smart and budget-friendly—key competencies hiring managers look for.”
7. Explain the Difference Between AC and DC Current.
Why you might get asked this:
Knowing AC vs. DC is basic yet foundational, especially as renewables and EV charging merge both domains. These electrical interview questions reveal whether you can articulate practical implications like transmission efficiency, conversion losses, and component selection.
How to answer:
State that AC alternates polarity, facilitating voltage transformation through transformers, while DC flows steadily in one direction, crucial for electronics. Highlight an application—maybe rectifying AC to DC in a power supply or using high-voltage DC for long-distance transmission.
Example answer:
“I like to frame it this way: AC is ideal for moving power over distances because we can step it up or down easily with transformers, whereas DC shines in electronics where stable voltage is critical. In a recent EV charger project, the grid delivered 480 V AC, which we rectified and buck-converted to a constant 400 V DC bus for battery charging. By understanding both forms, I optimized conversion stages to reach 94 % efficiency and minimized heat sink size, evidencing the balanced viewpoint interviewers want.”
8. Describe Your Experience With Simulation Software in Circuit Design.
Why you might get asked this:
Digital twins and simulations cut costs, so proficiency here recurs in electrical interview questions. Employers check if you can accelerate development, catch errors early, and iterate virtually before prototyping.
How to answer:
Name tools like SPICE, Simulink, or LTspice, mention the types of analyses (transient, Monte Carlo, thermal), and cite a project where simulation shaved weeks off the timeline. Discuss validation against lab results.
Example answer:
“I’m fluent in LTspice and PLECS. For a 3-phase inverter, I built a full switching model, running thermal and harmonic sweeps. The simulation predicted a 12 °C rise at 30 A, which matched lab tests within 1 °C—giving me confidence to reduce the heat-sink footprint by 20 %. That level of alignment between virtual and physical worlds saves money and assures reliability—skills any employer values.”
9. What Methods Do You Use to Test and Validate Your Electrical Designs?
Why you might get asked this:
Robust validation ensures regulatory compliance and market reliability, making it a staple of electrical interview questions. Interviewers gauge if you have a structured verification mindset or rely on ad-hoc testing.
How to answer:
Outline a multi-tier approach: simulations, bench testing, environmental stress, EMC, and field trials. Reference standards like UL or IEC. Emphasize documentation and iterative improvements.
Example answer:
“I start with schematic-level simulation, then move to bench prototypes using oscilloscopes and spectrum analyzers. Next comes HALT testing—thermal cycling from −40 °C to +85 °C—and EMC scans per IEC 61000. During a smart-meter rollout, this approach cut field failures to below 0.3 %. Documenting each stage feeds back into design tweaks, ensuring every release meets specs and passes audits.”
10. How Do You Ensure Compliance With Safety Standards in Your Electrical Designs?
Why you might get asked this:
Safety compliance is non-negotiable; slip-ups jeopardize lives and brand reputation. That’s why electrical interview questions frequently probe your familiarity with standards and design-for-safety techniques.
How to answer:
Reference relevant standards (NFPA 70, UL, IEC 60950, ISO 13849), describe risk assessments like FMEA, and mention protective measures—creepage distances, fusing, isolation, lockout-tagout labels.
Example answer:
“On a medical-device power board, UL 60601 mandated 8 mm clearance between mains and low-voltage sections. I used PCB slotting plus an opto-isolated feedback loop to guarantee patient safety. A third-party NRTL lab later confirmed compliance with zero findings. By embedding standards early and documenting test plans, I make safety an integral part of design, not an afterthought.”
11. Explain the Significance of Grounding in Electrical Systems.
Why you might get asked this:
Proper grounding prevents shock hazards and protects equipment, so it’s central to electrical interview questions on safety and EMI.
How to answer:
Define grounding as providing a low-impedance path to earth for fault currents. Discuss system grounding (neutral), equipment grounding (safety), and signal grounding. Give a project scenario like avoiding ground loops in audio gear.
Example answer:
“While upgrading a hospital’s standby generator, we bonded the neutral to the facility ground at a single point per NEC 250, preventing dangerous touch voltages during faults. We also installed isolated grounds for MRI machines to suppress noise. Those steps eliminated nuisance tripping and met Joint Commission audits, illustrating my proactive approach to grounding design.”
12. Can You Discuss a Time When You Had to Work Collaboratively With a Team to Complete a Project?
Why you might get asked this:
Engineering seldom happens in silos. These behavioral electrical interview questions reveal communication, leadership, and conflict-resolution skills.
How to answer:
Use the STAR method: situation, task, action, result. Highlight cross-functional coordination—perhaps with mechanical or firmware teams—and quantify outcomes.
Example answer:
“In a battery-storage product launch, I led weekly syncs between electrical, firmware, and mechanical teams. When mechanical moved vent ports, it altered my thermal profile, so I recalculated airflow and shared updated CFD data the same day. That agility kept us on schedule and under budget, proving I thrive in collaborative environments.”
13. Describe a Situation Where You Had to Communicate Complex Technical Information to a Non-Technical Audience.
Why you might get asked this:
Clarity fosters stakeholder confidence and project approval, explaining why such electrical interview questions target your communication finesse.
How to answer:
Explain how you broke down jargon, used visuals or analogies, and verified understanding. Detail the impact—faster buy-in or funding secured.
Example answer:
“Our finance team balked at adding surge protectors to a data-center upgrade. I compared them to household surge strips, showing how a $500 device could save $30,000 in server downtime. Using simple graphs, I won approval within one meeting, underlining my ability to translate tech into business value.”
14. How Did You Become Interested in Electrical Engineering?
Why you might get asked this:
Passion drives perseverance; hiring managers use these electrical interview questions to gauge long-term engagement.
How to answer:
Share an authentic story—childhood curiosity, college project, or inspiring mentor. Make it relevant to the role.
Example answer:
“My fascination began at age 12 when I fixed my family’s broken radio, sparking a lifelong desire to understand electronics. That curiosity led me to design a solar-powered irrigation controller in college, winning a regional IEEE competition. The same drive fuels my ambition today, assuring you I’ll bring enthusiasm and resilience to your projects.”
15. Why Are You Hoping to Work for Our Company?
Why you might get asked this:
Cultural fit and genuine interest are critical; these electrical interview questions test your research efforts.
How to answer:
Reference specific products, values, or recent news. Connect them to your skills and career trajectory.
Example answer:
“Your pioneering work in grid-scale battery systems aligns perfectly with my five-year focus on power-conversion design. I admire your commitment to carbon neutrality by 2030, echoing my passion for sustainable engineering. Joining your team lets me contribute my 800-V inverter expertise while advancing a mission I truly believe in.”
16. What Are Your Long-Term Career Goals?
Why you might get asked this:
Employers want stability and ambition; electrical interview questions on goals reveal alignment with growth paths.
How to answer:
Describe a five-to-ten-year plan focusing on technical mastery, leadership, or innovation. Show flexibility and fit.
Example answer:
“Over the next decade, I aim to evolve into a technical lead overseeing high-voltage power-electronics programs, mentoring juniors, and steering R&D efforts into wide-bandgap devices. Your company’s deep investment in SiC technology offers the perfect ecosystem for that journey.”
17. How Do You Approach Troubleshooting a Complex Electrical System?
Why you might get asked this:
Troubleshooting skills save time and money, making this a top electrical interview question.
How to answer:
Explain a structured approach: gather symptoms, isolate, hypothesize, test, and verify fixes. Mention tools (oscilloscope, thermal camera).
Example answer:
“When a conveyor drive intermittently tripped, I reviewed logs, scoped motor currents, and found spikes at startup. I isolated the VFD, discovered a mis-configured acceleration ramp, and reprogrammed it—eliminating downtime. My methodical approach ensures rapid, root-cause fixes.”
18. What Are the Most Common Types of Electrical Faults, and How Do You Diagnose Them?
Why you might get asked this:
Diagnosis prowess is business-critical; hence its appearance in electrical interview questions.
How to answer:
List overload, short circuit, open circuit, and ground fault. Discuss tools—megger, thermal imaging. Provide a case study.
Example answer:
“In a packaging plant, repeated breaker trips signaled an overload. I used a clamp meter to confirm currents 20 % above rating and thermal imaging to spot a bearing seizure upping motor load. Swapping the bearing solved the issue, demonstrating my holistic diagnostic mindset.”
19. How Would Your Coworkers Rate Your Problem-Solving Skills?
Why you might get asked this:
Self-assessment offers insight into teamwork compatibility in electrical interview questions.
How to answer:
Quote feedback, 360 reviews, or awards. Support with anecdotes.
Example answer:
“During quarterly 360 reviews my peers consistently rate my problem-solving at 4.8/5, citing my knack for turning complex breakdowns into actionable steps. When a PCB reflow profile caused intermittent joints, I led a root-cause workshop that cut failures by 70 % within a week.”
20. Describe a Project Where You Implemented Innovative Solutions to Improve Efficiency or Performance.
Why you might get asked this:
Innovation differentiates top talent; hence such electrical interview questions evaluate creativity and ROI awareness.
How to answer:
Detail the challenge, innovative method, and quantifiable improvement.
Example answer:
“On a wind turbine pitch controller, I introduced a predictive-maintenance algorithm using motor current signature analysis. The upgrade boosted uptime by 5 % and avoided $250k in blade damage annually, proving my drive for forward-thinking efficiencies.”
21. How Do You Ensure That Your Designs Are Cost-Effective While Maintaining Quality?
Why you might get asked this:
Balancing cost and quality matters to margins; this is a common electrical interview question.
How to answer:
Discuss design-for-manufacture, component consolidation, and lifecycle costing.
Example answer:
“I employ value engineering: consolidating four control boards into one multipurpose PCB saved $7 per unit and improved reliability. I validate with PPAP and rigorous QA, ensuring savings never compromise performance.”
22. What Strategies Do You Use to Mentor or Guide Junior Engineers or Interns?
Why you might get asked this:
Leadership potential is vital; electrical interview questions on mentoring illuminate collaboration style.
How to answer:
Describe structured onboarding, paired design reviews, and goal setting.
Example answer:
“I pair new hires with buddy projects—small yet impactful tasks—then host weekly design-critique sessions. This approach helped two interns publish IEEE papers last year, reflecting my commitment to nurturing talent.”
23. What Role Does Sustainability Play in Your Electrical Engineering Projects?
Why you might get asked this:
Sustainability influences public perception and regulation, so it appears in forward-looking electrical interview questions.
How to answer:
Show awareness of life-cycle analysis, energy efficiency, and recyclable materials. Provide a case study.
Example answer:
“I designed a modular UPS where 95 % of materials are recyclable aluminum and copper, reducing end-of-life waste by 40 %. The design also cut standby losses from 8 % to 3 %, demonstrating sustainability without sacrificing reliability.”
24. Can You Discuss Your Experience With Renewable Energy Systems and Their Integration Into Existing Grids?
Why you might get asked this:
Grid integration expertise is in demand; thus, it ranks high among electrical interview questions.
How to answer:
Highlight projects in solar, wind, or storage and mention grid codes, microgrid controllers, and protection schemes.
Example answer:
“I integrated a 5 MW solar farm using IEEE 1547-2018 compliant inverters, coordinating with utility SCADA for dynamic VAR support. My relay settings maintained grid stability even during cloud fluctuations, showcasing my hands-on renewable integration skills.”
25. Can You Explain the Role of Microcontrollers in Modern Electrical Engineering Applications?
Why you might get asked this:
Microcontrollers drive automation; electrical interview questions here test embedded proficiency.
How to answer:
Define microcontrollers, list key peripherals (ADC, PWM), and cite applications in motor control or IoT.
Example answer:
“In a smart-lighting project I used an ARM Cortex-M4 MCU with BLE connectivity to enable occupancy-based dimming, slashing energy use by 60 %. The MCU handled sensor fusion and secure OTA updates, underlining their central role in modern solutions.”
26. Describe Your Experience With Embedded Systems and Their Applications in Electrical Engineering.
Why you might get asked this:
Embedded knowledge expands design scope; hence its inclusion in electrical interview questions.
How to answer:
Discuss RTOS, firmware development, and hardware-software co-design.
Example answer:
“I co-developed firmware on FreeRTOS for a grid-tied inverter, optimizing ISR latency to 2 µs for precise PWM control. Collaborating closely with hardware engineers, we achieved THD below 2 %, surpassing regulatory limits.”
27. How Do You Approach Risk Management in Your Engineering Projects?
Why you might get asked this:
Identifying and mitigating risk is essential; electrical interview questions on this reveal foresight.
How to answer:
Explain risk registers, FMEA, mitigation plans, and contingency budgets.
Example answer:
“On a substation upgrade, I built a risk matrix ranking hazards by probability and impact. High-priority risks, like transformer delivery delays, triggered pre-approved alternates. This planning kept the project timeline intact despite supply-chain disruptions.”
28. How Do You Prioritize Tasks When Working on Multiple Projects Simultaneously?
Why you might get asked this:
Multitasking defines engineering roles; thus, it features in electrical interview questions.
How to answer:
Discuss ranking by urgency, impact, and resource availability, backed by tools like Kanban.
Example answer:
“I maintain a daily Kanban board, tagging tasks with effort estimates and deadlines. During overlapping product sprints, this method trimmed average task slippage from 12 % to 4 %, ensuring reliable delivery.”
29. How Do You Handle Tight Deadlines and Pressure in Your Work?
Why you might get asked this:
Stress management correlates with quality; electrical interview questions examine resilience.
How to answer:
Share organization tactics, proactive communication, and self-care habits.
Example answer:
“When a client advanced a delivery date by two weeks, I re-baselined tasks, delegated PCB layout to a trusted colleague, and conducted nightly syncs. We shipped on the new date with zero defects, proving I thrive under pressure through teamwork and planning.”
30. How Do You Stay Updated With the Latest Advancements in Electrical Engineering Technology?
Why you might get asked this:
Continuous learning fuels innovation; hence its presence in electrical interview questions.
How to answer:
Mention IEEE journals, webinars, conferences, and platforms like Coursera.
Example answer:
“I subscribe to IEEE Spectrum, attend APEC annually, and complete at least two MOOC courses a year. I also pilot new tools like Verve AI Interview Copilot for on-demand knowledge checks, ensuring I’m always on the cutting edge.”
Other Tips to Prepare for a Electrical Interview Questions
• Schedule weekly mock sessions with peers or Verve AI’s Interview Copilot to simulate real-time Q&A and receive instant coaching.
• Build a study matrix covering theory, formulas, and recent projects; practice articulating each aloud.
• Record yourself answering electrical interview questions, then critique clarity and pacing.
• Use flashcards or spaced-repetition apps to cement standards and equations.
• Rest well before interview day—mental sharpness beats last-minute cramming.
“You miss 100% of the shots you don’t take.” — Wayne Gretzky
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Frequently Asked Questions
Q1: How many electrical interview questions should I prepare for?
A: Focus on the 30 in this guide, but be ready to adapt to role-specific variants.
Q2: Are practical demonstrations common during interviews?
A: Yes, expect whiteboard schematics or quick calculations to verify your hands-on competence.
Q3: How long should my example answers be?
A: Aim for 60–90 seconds—long enough to show depth but concise enough to keep attention.
Q4: What resources best reinforce theory before interviews?
A: IEEE tutorials, All About Circuits forums, and Verve AI Interview Copilot’s question bank provide a well-rounded prep path.
Q5: Do I need to memorize standards verbatim?
A: No, but know key requirements and where to find detailed clauses.
Prepared candidates turn opportunities into offers—use these insights, leverage Verve AI, and make your next interview a success.
