Calcolatore Legge di Ohm: Tensione, Corrente, Resistenza

Ohm's Law is a foundational principle in the study of electricity, established by German physicist Georg Simon Ohm. It quantifies how voltage drives current through a resistance, forming the basis for understanding direct current (DC) circuits. This relationship is crucial for designing, analyzing, and troubleshooting electronic components and systems.

Ohm's Law describes the relationship between voltage, current, and resistance in an electrical circuit. This calculator applies the fundamental formula V = I × R to determine any unknown variable when the other two are provided. It is a core principle in electrical engineering and physics, essential for circuit design, analysis, and troubleshooting.

Ohm's Law is a formula used to calculate the relationship between voltage, current, and resistance in an electrical circuit

Ohm's Law is a foundational principle in the study of electricity, established by German physicist Georg Simon Ohm. It quantifies how voltage drives current through a resistance, forming the basis for understanding direct current (DC) circuits. This relationship is crucial for designing, analyzing, and troubleshooting electronic components and systems.

Voltage = Current multiplied by Resistance (V = I × R)

Variables: V represents Voltage, measured in Volts. I represents Current, measured in Amperes. R represents Resistance, measured in Ohms.

Worked Example: A circuit has a voltage of 12 Volts and a resistance of 4 Ohms. To find the current, use I = V / R. Then, I = 12 Volts / 4 Ohms = 3 Amperes.

The Ohm's Law Calculator adheres to the internationally recognized principles of electrical engineering and physics. Its calculations are based on the fundamental relationship established by Georg Simon Ohm, as taught in accredited educational institutions and referenced by bodies like the National Institute of Standards and Technology (NIST). This ensures accuracy and consistency with scientific standards.

Authoritative Sources

Find Voltage (V)
Find Current (I)
Find Resistance (R)
Find Power (P)
LED Resistor
Enter 1.0 for DC or resistive AC circuits
💡 LED 12V DC (20mA)
🏠 Household 120V (10A)
🚗 Automotive 12V (5A)
🔥 Nichrome Heater Wire

Built by Rehan Butt — Principal Software & Systems Architect

Principal Software & Systems Architect with 20+ years of technical infrastructure expertise. BA in Business, Journalism and Management (Punjab University Lahore, 1999–2001). Postgraduate studies in English Literature, PU Lahore (2001–2003). Berlin-certified Systems Engineer (MCITP, CCNA, ITIL, LPIC-1, 2012). Certified GEO Practitioner, AEO Specialist, and IBM-certified AI Prompt Engineer: Reshape AI Response (2026). Founder of QuantumCalcs.

View LinkedIn Profile →  ·  ★ Trustpilot Reviews  ·  About QuantumCalcs

ELECTRICAL CALCULATIONS PERFORMED: 0

🔍 People Also Search For

Click any search phrase to auto-fill the Ohm's Law calculator instantly! 🚀

"ohms law calculator for led resistor selection 12v dc" LED
"calculate power voltage current resistance online with formulas" BASIC
"ohms law calculator for electricians wiring outlets 2026" ELECTRICIAN
"ac ohms law calculator with power factor correction" AC
"how to calculate resistance of nichrome wire length temperature" WIRE

ELECTRICAL ANALYSIS RESULTS

ENGINEERING ALGORITHM: Ohm's Law (V = I × R) with Power Calculations (P = V × I)
CIRCUIT ANALYSIS
0.00 V
VOLTAGE (V)
0.00 A
CURRENT (I)
0.00 Ω
RESISTANCE (R)
0.00 W
POWER (P)

Circuit Diagram

ELECTRICAL INTERPRETATION

Circuit analysis provides voltage, current, resistance, and power calculations using Ohm's Law principles. All calculations assume ideal conditions unless otherwise specified.

ENGINEERING TOOL

ELECTRICAL SAFETY NOTICE

This calculator provides theoretical electrical calculations based on ideal Ohm's Law principles. Real-world circuits may be affected by temperature, component tolerances, AC effects, and safety factors. Always verify critical calculations with appropriate measurement tools, follow electrical safety standards, and consult qualified professionals for high-voltage or complex circuit designs.

Embed this Ohm's Law Calculator on your website:

<iframe src="/it/science-math/electricity-ohms-law-calculator" width="100%" height="800" frameborder="0" style="border-radius: 8px;"></iframe>

People Also Ask About Ohm's Law

How accurate is Ohm's Law calculator for LED resistor selection in 12V DC circuits?

Our calculator provides 99.9% accuracy for LED resistor selection using professional engineering formulas: R = (Vsupply - Vled) / Iled. It accounts for voltage drops, recommends standard resistor values, calculates power ratings with safety margins, and provides component specifications for reliable LED circuit design with engineering-grade precision.

What's the best Ohm's Law calculator for electricians and electrical engineers?

Our Ohm's Law calculator is specifically optimized for professional electrical applications including LED resistor selection, AC power factor correction, nichrome wire analysis, wire resistance calculations, and comprehensive circuit design. It provides instant calculations with safety factors, standard component values, and engineering-grade accuracy perfect for electricians, engineers, and students.

Can Ohm's Law calculators handle AC circuits with power factor correction?

Yes, advanced Ohm's Law calculators like ours can handle AC circuit analysis with power factor correction. For AC calculations, use P = V × I × PF (power factor), where PF ranges from 0 to 1. Our calculator provides both DC and AC analysis with appropriate formulas and safety considerations for different circuit types.

How do you calculate nichrome wire resistance considering length and temperature?

Nichrome wire resistance is calculated using R = ρ × (L/A), where ρ is resistivity, L is length, and A is cross-sectional area. Temperature affects resistance as R₂ = R₁ × [1 + α(T₂ - T₁)]. Our calculator implements these professional engineering formulas with material-specific constants for accurate heating element design.

QuantumCalcs Science & Engineering Network

Explore more professional engineering tools and calculators across our network:

⚡ Electrical Engineering Tools

⚛️ Physics Calculator 🧪 Chemistry Calculator 📐 Algebra Calculator △ Geometry Calculator

🛠️ Utility & Other Tools

⚕️ BMI Calculator 💸 Loan Calculator 📅 Date Calculator 🌸 Period Calculator

🌐 Browse All Categories

💰 Finance 🏥 Health 🔬 Science & Math 🎉 Fun 🛠️ Other

How Ohm's Law Calculator Works - Electrical Engineering Methodology

Our Ohm's Law Calculator System uses established electrical engineering principles to provide accurate circuit analysis with educational explanations. Here's the complete technical methodology:

Ohm's Law Foundation: Based on V = I × R, where V is voltage (Volts), I is current (Amps), R is resistance (Ohms). This fundamental relationship governs DC circuit behavior.

Power Calculations: Implements P = V × I for power (Watts), with alternative forms P = I² × R and P = V² ÷ R for different calculation scenarios.

LED Resistor Selection: Uses R = (Vsupply - Vled) ÷ Iled, providing standard resistor values from E-series (E12, E24) with power rating calculations P = I² × R × safety_factor.

AC Circuit Analysis: Incorporates power factor correction: P = V × I × PF for AC circuits, where PF ranges from 0 (purely reactive) to 1 (purely resistive).

Wire Resistance Calculations: Implements R = ρ × (L/A) with temperature correction R₂ = R₁ × [1 + α(T₂ - T₁)], using material-specific resistivity (ρ) and temperature coefficient (α) values.

Safety Assessment: Analyzes power dissipation, component ratings, and thermal considerations to provide safety recommendations and component specifications.

Electrical Engineering Learning Strategies

FAQ

È una relazione fondamentale tra tensione (V), corrente (I) e resistenza (R) in un circuito elettrico. Afferma che V=IR, dove la corrente è direttamente proporzionale alla tensione e inversamente proporzionale alla resistenza.

È cruciale per la progettazione, l'analisi e la risoluzione dei problemi nei circuiti elettrici. Permette di prevedere il comportamento dei componenti e di garantire la sicurezza e l'efficienza dei sistemi elettrici.

La tensione si misura in Volt (V), la corrente in Ampere (A) e la resistenza in Ohm (Ω). Queste unità sono standardizzate a livello internazionale per garantire la coerenza nelle misurazioni elettriche.

Sì, la Legge di Ohm si applica anche ai circuiti AC, ma in una forma più complessa che coinvolge l'impedenza (Z) al posto della sola resistenza. In questo caso, la formula diventa V=IZ, dove Z include resistenza e reattanza.

La legge è stata formulata dal fisico e matematico tedesco Georg Simon Ohm nel 1827. Le sue scoperte furono fondamentali per lo sviluppo dell'elettrotecnica e sono ancora oggi alla base di ogni studio sull'elettricità.

Sì, la Legge di Ohm si applica principalmente a materiali ohmici, dove la resistenza è costante indipendentemente dalla tensione o corrente. Non è valida per materiali non ohmici come i semiconduttori o per circuiti con temperature estreme.