Sound Wavelength Calculator

Sound Wavelength Calculator — quickly compute wavelength from frequency and speed of sound using the formula λ = v / f.

Medium

Temperature (°C)

Speed of Sound (v)

m/s

Frequency (f)

Wavelength (λ)

-- meters

λ = 343 / f

Audio is for demonstration (max 5s). Ensure volume is safe.

How the Sound Wavelength Calculator Works (λ = v / f)

The relationship between sound wavelength, frequency, and speed is defined by the fundamental wave equation. This physics formula helps engineers, musicians, and students calculate the physical distance of one sound wave cycle.

The Formula

      λ = v / f
    

λ (Lambda): Wavelength (meters)
v (Velocity): Speed of Sound (meters per second)
f (Frequency): Pitch (Hertz or cycles per second)

To use the Sound Wavelength Calculator, simply input the frequency of the sound. The tool automatically applies the speed of sound (defaulting to air at 20°C) to solve for λ. You can also use the calculator in reverse to find frequency if you know the wavelength.

Typical Speeds of Sound

Sound travels at different speeds depending on the density and temperature of the medium. Sound moves faster in solids (like steel) than in gases (like air). In air, temperature plays a major role: for every degree Celsius increase, speed increases by approximately 0.6 m/s.

Medium	Condition	Speed (m/s)
Air	0°C	331.3
Air	20°C	343.0
Water	Fresh, 20°C	1482
Concrete	Solid	~3600
Steel	Solid	~5960

Examples: Wavelengths across human hearing

The human ear can detect frequencies roughly between 20 Hz and 20,000 Hz. Low bass notes have massive wavelengths, while high-pitched sounds have wavelengths measuring just millimeters.

Frequency	Description	Wavelength (Air, 20°C)
20 Hz	Lowest audible bass	17.15 m (56.3 ft)
100 Hz	Punchy bass (Kick drum)	3.43 m (11.2 ft)
440 Hz	Concert A (Tuning)	0.78 m (2.5 ft)
1,000 Hz	Mid-range	34.3 cm (13.5 in)
10,000 Hz	High Treble	3.4 cm (1.3 in)

Frequently Asked Questions (FAQ)

Q1: What is the formula to calculate sound wavelength?

A1: The wavelength (λ) is calculated by dividing speed (v) by frequency (f): λ = v / f.

Q2: What is the speed of sound in air?

A2: Typical speed at 20°C is about 343 m/s. Speed changes with temperature and medium.

Q3: Can I compute frequency if I know wavelength?

A3: Yes — use f = v / λ.

Q4: Why do I get a different wavelength in water than in air?

A4: Speed of sound differs by medium, so for the same frequency, the wavelength changes proportionally to speed.

Q5: Does temperature affect the calculation?

A5: Yes — in air, speed increases with temperature. The calculator can compute v from temperature using an approximate formula.

Q6: Is the audio tone safe to play?

A6: The audio tool generates pure tones for demonstration. Users should set volume low; avoid prolonged loud exposure.

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These tools help reinforce core physical principles and are useful complements to sound wave studies.