Rate of Turn Calculator – Cost Calculator | Online Quote & Profit Estimator

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Aviation Rate of Turn Calculator

True Airspeed (TAS) in Knots

Bank Angle (Degrees)

Calculation Results

Rate of Turn: –

Turn Radius: –

Time for 360° Turn: –

Standard Rate Turn Angle: –

Understanding Rate of Turn in Aviation

In aviation, the Rate of Turn (ROT) is the number of degrees per second an aircraft changes its heading. This is a critical flight parameter for navigation, air traffic control spacing, and safe maneuvering within holding patterns.

The Mathematics of Turning

The rate of turn depends on two primary factors: the aircraft's True Airspeed (TAS) and the Bank Angle. As airspeed increases, the rate of turn decreases for a constant bank angle. Conversely, as the bank angle increases, the rate of turn increases.

The standard formula used in this calculator is:

Rate of Turn (°/sec) = (1,091 × tan(Bank Angle)) / TAS

What is a Standard Rate Turn?

A "Standard Rate Turn" (also known as Rate One) is defined as a turn of 3° per second. This allows an aircraft to complete a full 360-degree circle in exactly 2 minutes (120 seconds). This is the expected performance during instrument flight rules (IFR) procedures.

Calculating Bank Angle for Standard Rate

A common rule of thumb for pilots to achieve a standard rate turn is:

Rule of Thumb: (TAS / 10) + 7 = Required Bank Angle
Example: If flying at 100 knots, (100/10) + 7 = 17° Bank.

TAS (Knots)	Required Bank (3°/sec)	Radius (NM)
100	~15.5°	0.16 NM
150	~22.4°	0.37 NM
250	~34.4°	1.03 NM

Why Radius of Turn Matters

The Radius of Turn determines how much horizontal space the aircraft needs to complete a maneuver. This is vital when clearing terrain or staying within the protected airspace of a holding pattern or approach procedure. As speed increases, the radius increases by the square of the speed, meaning a small increase in TAS significantly expands the turn circle.

function calculateROT() { var tas = parseFloat(document.getElementById('tasInput').value); var bank = parseFloat(document.getElementById('bankAngleInput').value); if (isNaN(tas) || isNaN(bank) || tas <= 0 || bank tan(theta) = (3 * TAS) / 1091 var stdBankRad = Math.atan((3 * tas) / 1091); var stdBankDeg = stdBankRad * (180 / Math.PI); // Display results document.getElementById('resRate').innerHTML = rot.toFixed(2) + " °/sec"; document.getElementById('resRadius').innerHTML = radiusNM.toFixed(2) + " NM (" + Math.round(radiusFt) + " ft)"; document.getElementById('resTime').innerHTML = timeMinutes.toFixed(2) + " minutes"; document.getElementById('resStdAngle').innerHTML = stdBankDeg.toFixed(1) + "°"; document.getElementById('rotResults').style.display = 'block'; }