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String Tension Calculator

Calculate the physical tension of a musical instrument string based on mass, length, and pitch.

Unit Weight (lbs per linear inch) Common for .046 gauge Nickel Wound: 0.00016252

Scale Length (Inches)

Frequency (Hz)

The calculated string tension is:

Understanding String Tension Physics

String tension is the amount of force exerted by a string pulled taut between two points, such as the nut and the bridge of a guitar. Getting the tension right is critical for playability, intonation, and preventing damage to the instrument's neck.

The Calculation Formula

This calculator uses the standard physics formula for a vibrating string:

T = (UW × (2 × L × f)²) / 386.4

T: Tension (lbs)
UW: Unit Weight (lbs per linear inch)
L: Scale Length (inches)
f: Frequency (Hertz)
386.4: Gravitational constant conversion factor

Common Frequency Reference (Standard Tuning)

Note	Standard Frequency (Hz)
E2 (Low E)	82.41 Hz
A2	110.00 Hz
D3	146.83 Hz
G3	196.00 Hz
B3	246.94 Hz
E4 (High E)	329.63 Hz

Why Calculate Tension?

Whether you are a luthier building a custom instrument or a guitarist experimenting with "drop tunings," knowing the tension helps you select the correct string gauge. If the tension is too low, the string will feel "floppy" and buzz against the frets. If it is too high, you risk snapping the string or warping the instrument's neck.

Example Calculation

If you have a 25.5-inch scale guitar and use a .010 gauge High E string (Unit Weight approx 0.00002215) tuned to 329.63 Hz:

T = (0.00002215 × (2 × 25.5 × 329.63)²) / 386.4 = 16.2 lbs

function calculateStringTension() { var unitWeight = parseFloat(document.getElementById('stc_unitWeight').value); var scaleLength = parseFloat(document.getElementById('stc_scaleLength').value); var frequency = parseFloat(document.getElementById('stc_frequency').value); var resultDiv = document.getElementById('stc_result'); var outputDiv = document.getElementById('stc_output'); var metricDiv = document.getElementById('stc_metric_output'); if (isNaN(unitWeight) || isNaN(scaleLength) || isNaN(frequency) || unitWeight <= 0 || scaleLength <= 0 || frequency <= 0) { alert("Please enter valid positive numbers for all fields."); return; } // Formula: T = (UW * (2 * L * f)^2) / 386.4 var bracket = 2 * scaleLength * frequency; var tensionLbs = (unitWeight * Math.pow(bracket, 2)) / 386.4; var tensionKg = tensionLbs * 0.453592; outputDiv.innerHTML = tensionLbs.toFixed(2) + " lbs"; metricDiv.innerHTML = "Equivalent to " + tensionKg.toFixed(2) + " kg of force."; resultDiv.style.display = "block"; }