How accurate are the conversion results?

Our conversions use internationally recognized formulas with precision up to 12 decimal places, ensuring accuracy for professional, scientific, and everyday use.

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Do you support both metric and imperial units?

Yes, we support comprehensive conversions between metric (SI), imperial, and other international measurement systems.

Professional Unit Conversion

Magnetic Flux Converter

12 units

Convert between different units of magnetic flux including weber, maxwell, and volt-second for electromagnetic field calculations.

Precision Mode

Standard (2 decimal places)

Convert between different units of magnetic flux with high precision

From

Value

SI Standard

Value

CGS System

SI Standard

Weber (Wb)

Kiloweber (kWb)

Milliweber (mWb)

Microweber (μWb)

Nanoweber (nWb)

CGS System

Maxwell (Mx)

Kilomaxwell (kMx)

Megamaxwell (MMx)

Gigamaxwell (GMx)

Alternative Forms

Volt second (V·s)

Tesla square meter (T·m²)

Kilovolt second (kV·s)

Popular Magnetic Flux Unit Conversions

Weber to Maxwell× 100,000,000

Maxwell to Weber× 0.00000001

Milliweber to Microweber× 1,000

Weber to Milliweber× 1,000

Volt second to Weber1:1 ratio

Tesla square meter to Weber1:1 ratio

Complete Magnetic Flux Conversion Guide

Understanding Magnetic Flux Measurement

Magnetic flux measures the total magnetic field passing through a given area. It represents the quantity of magnetism, taking into account the strength and extent of a magnetic field. This fundamental electromagnetic quantity is essential for understanding electromagnetic induction, transformer operation, and motor design principles.

Essential Conversion Factors

1 Weber = 100,000,000 Maxwell (10⁸ Maxwell)

1 Weber = 1 Volt-second = 1 Tesla·m²

1 Maxwell = 10⁻⁸ Weber = 0.01 microweber

1 Milliweber = 100,000 Maxwell = 1,000 microweber

1 Microweber = 100 Maxwell = 0.001 milliweber

Relationship to Electromagnetic Induction

Faraday's Law

EMF = -dΦ/dt (rate of change of magnetic flux)

Transformer Operation

Magnetic flux linkage in transformers and inductors

Induction Phenomena

Critical for understanding electromagnetic induction

Motor Principles

Fundamental to generator and motor operation

Essential for calculating induced voltages and currents

Professional Applications

Transformer Design

Flux linkage calculations, core sizing

Electric Motor Analysis

Flux distribution, torque calculations

Generator Engineering

Electromagnetic induction, power generation

Magnetic Circuit Design

Flux path analysis, reluctance calculations

Induction Heating

Eddy current calculations, heating efficiency

EMC Analysis

Flux coupling, interference analysis

Common Magnetic Flux Values

Small transformer core1-10 mWb

Power transformer0.1-10 Wb

Electric motor flux0.01-1 Wb

Induction heating coil0.1-5 Wb

MRI scanner gradient0.001-0.1 Wb

Laboratory electromagnet0.01-1 Wb

Flux Density and Area Relationship

Basic Formula

Magnetic flux (Φ) = Magnetic flux density (B) × Area (A)

Angular Relationship

Φ = B × A × cos(θ), where θ is angle between field and normal

Critical for calculating total flux through complex geometries

Essential for transformer core design and motor analysis

Important for magnetic shielding effectiveness calculations