Radians Per Second to Terahertz Converter

How to Convert Radians Per Second to Terahertz

To convert a frequency measurement from radians per second to terahertz, divide the frequency value by the conversion factor. Since one radian per second is equal to 1.5915 × 10^-13 terahertz, you can use this formula:

The frequency in terahertz is equal to the radians per second divided by 6.2832 × 10¹².

How Many Terahertz Are in a Radian Per Second?

There are 1.5915 × 10^-13 terahertz in one radian per second.

What Is a Radian Per Second?

The radian per second (symbol: rad/s) is the SI derived unit of angular velocity (rotational speed) and also serves as a unit of angular frequency. One radian per second means that the angle swept per second is one radian (approximately 57.296°). In physics and engineering, the radian per second is preferred over revolutions per minute because it simplifies mathematical equations. Angular velocity ω in rad/s is directly related to linear velocity by v = ωr and to centripetal acceleration by a = ω²r. The angular frequency ω (in rad/s) is related to the ordinary frequency f (in hertz) by ω = 2πf. This relationship appears throughout wave physics, signal processing, and electrical engineering. For example, the angular frequency of 50 Hz mains electricity is ω = 2π × 50 ≈ 314.16 rad/s. In control systems engineering, the bandwidth, natural frequency, and gain crossover frequency of systems are all expressed in radians per second. Transfer functions in the Laplace domain use s (= jω) with ω in rad/s.

One radian per second is equal to:

• 0.159155 hertz (Hz)
• 9.5493 revolutions per minute (RPM)
• 57.2958 degrees per second (°/s)
• 1.592 × 10⁻⁴ kilohertz (kHz)
• 0.159155 cycles per second (cps)

What Is a Terahertz?

The terahertz (symbol: THz) is a unit of frequency equal to one trillion (10¹²) hertz. The prefix “tera” denotes a factor of 10¹² in the International System of Units. Terahertz radiation (also called T-rays) occupies the electromagnetic spectrum between microwave and infrared radiation, spanning roughly 0.1–10 THz (wavelengths of 3 mm to 30 μm). This region is sometimes called the “terahertz gap” because it has historically been difficult to generate and detect. Terahertz imaging is used in airport security scanners, as THz radiation can penetrate clothing, paper, and plastics but is reflected by metals and absorbed by water. This allows concealed objects to be detected without using ionising radiation (X-rays). In astronomy, far-infrared and sub-millimetre telescopes observe at terahertz frequencies to study cold dust clouds, molecular gas in galaxies, and the cosmic microwave background. In materials science, terahertz spectroscopy is used to study the vibrational modes of molecules and crystal lattices.

One terahertz is equal to:

• 10¹² hertz (Hz)
• 10⁹ kilohertz (kHz)
• 10⁶ megahertz (MHz)
• 1,000 gigahertz (GHz)
• 6 × 10¹³ RPM
• 6.28319 × 10¹² radians per second (rad/s)

Understanding Frequency Units

Frequency is a physical quantity that measures how often a periodic event occurs per unit of time. In the most common usage, it measures the number of complete cycles of oscillation per second. Frequency is the reciprocal of the period (T): f = 1/T.

Different frequency units have evolved to serve different fields and applications. The hertz and its metric multiples dominate physics and electronics, while RPM is standard in mechanical engineering, and radians per second is preferred in mathematical physics and control theory.

Major Unit Families

• SI / Metric units: The hertz (Hz) is the SI unit of frequency, with standard metric prefixes (kHz, MHz, GHz, THz). Each prefix step is a factor of 1,000.
• Cycles per second: The cycle per second (cps) is the original name for the hertz. It is numerically identical (1 cps = 1 Hz) but predates the adoption of the “hertz” name in 1960.
• Revolutions per minute: RPM measures rotational speed and is widely used in mechanical engineering and everyday life. 1 RPM = 1/60 Hz.
• Angular velocity units: Radians per second (rad/s) and degrees per second (°/s) measure angular velocity. One full revolution = 2π rad = 360°, so 1 Hz = 2π rad/s = 360 °/s.

Frequency in Everyday Life

• Sound: Human hearing ranges from about 20 Hz to 20 kHz. Middle C on a piano is 261.6 Hz. Concert pitch A is 440 Hz.
• Electricity: Mains power alternates at 50 Hz (most of the world) or 60 Hz (Americas, parts of Asia).
• Computing: Modern CPUs run at 2–5 GHz. Monitor refresh rates are 60–360 Hz.
• Radio: AM radio: 530–1,700 kHz. FM radio: 87.5–108 MHz. Wi-Fi: 2.4 / 5 / 6 GHz.
• Rotation: Car engines idle at 600–1,000 RPM. Hard drives spin at 5,400–7,200 RPM.

Converting Between Frequency Units

All frequency units measure the same physical quantity (periodic events per unit time), so converting between them involves multiplying by the appropriate conversion factor. The key relationships are:

• 1 Hz = 1 cps (identical units)
• 1 Hz = 60 RPM (one cycle per second = 60 cycles per minute)
• 1 Hz = 2π rad/s ≈ 6.28319 rad/s (one cycle = 2π radians)
• 1 Hz = 360 °/s (one cycle = 360 degrees)

Tips for Frequency Conversions

• For SI metric conversions (Hz, kHz, MHz, GHz, THz), each prefix step is a factor of 1,000. So 1 GHz = 1,000 MHz = 1,000,000 kHz = 10⁹ Hz.
• Hertz and cycles per second are exactly the same unit (1 Hz = 1 cps). The name “hertz” was adopted in 1960 to honour Heinrich Hertz.
• To convert Hz to RPM, multiply by 60. To convert RPM to Hz, divide by 60.
• To convert Hz to rad/s, multiply by 2π (≈ 6.28319). To convert rad/s to Hz, divide by 2π.
• To convert Hz to °/s, multiply by 360. To convert °/s to Hz, divide by 360.
• To convert RPM to rad/s, multiply by 2π/60 (≈ 0.10472). This is one of the most common conversions in mechanical engineering.
• To convert RPM to °/s, multiply by 6 (since 360° ÷ 60 s = 6 °/s per RPM).
• Remember that frequency (f in Hz) and angular frequency (ω in rad/s) are related by ω = 2πf. Many physics equations use ω rather than f.

Radians Per Second to Terahertz Conversion Table

The following table shows conversions from radians per second to terahertz.

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