That also depends on the speed of the wave. Use the formula speed = wavelength x frequency, or wavelength = speed / frequency. In the case of an electromagnetic wave in a vacuum, use 300,000,000 m/s for the speed.
The frequency of a sound wave can be calculated using the formula: frequency = speed of sound / wavelength. Plugging in the values given, the frequency would be approximately 500 Hz.
you label a wavelength with amplitude, wavelength, through, and peak.
Use the universal wave equation,v=fxlambdawhere v is velocity/speedf is frequencyand lambda is wavelengthv=(500)(0.5)= 250 m/s
AnswerSpeed of a wave = Wavelength x frequencyv = 0.5 x 500v = 250 m/sAnswerIf it is an electromagnetic wave, then the speed is that of light - 'c (in vacuum)'.
That also depends on the speed of the wave. Use the formula speed = wavelength x frequency, or wavelength = speed / frequency. In the case of an electromagnetic wave in a vacuum, use 300,000,000 m/s for the speed.
499.5
Wavelength = (speed) / (frequency) = (5,000) / (10) = 500 meters = 0.5 km.
The frequency of a sound wave can be calculated using the formula: frequency = speed of sound / wavelength. Plugging in the values given, the frequency would be approximately 500 Hz.
you label a wavelength with amplitude, wavelength, through, and peak.
Use the universal wave equation,v=fxlambdawhere v is velocity/speedf is frequencyand lambda is wavelengthv=(500)(0.5)= 250 m/s
AnswerSpeed of a wave = Wavelength x frequencyv = 0.5 x 500v = 250 m/sAnswerIf it is an electromagnetic wave, then the speed is that of light - 'c (in vacuum)'.
The equation needed is: V=fl Where V is the speed, f is the frequency and l is the wavelength. (the poxy thing won't let me enter a lamba sign) The key bit of information is "in a vacuum"; all waves in a vacuum travel at the same speed, 3x108ms-1. This is more commenly refered to as the speed of light, C. Therefore, f = V / l= C / l = 3x108 / 400x10-9 = 7.5x1014 Hz (Not in standard form that's: 750,000,000,000,000 Hz) (The '/' means divided by)
500 nanometers is a unit of measurement commonly used to describe the wavelength of light. It falls within the visible spectrum of light and is equivalent to 0.0000005 meters.
Note: The speed should be in units of cm/s rather than cm. The relation between the speed (v), frequency (f) and wavelength (λ) is: v = fλ. Therefore, f = v/λ = (500 cm/s) / (20 cm) = 25 Hz.
The specific wavelength of the color pink is typically around 450-500 nanometers.
The speed of sound in air at room temperature is approximately 343 m/s. Using the formula speed = frequency x wavelength, we can calculate the frequency as speed divided by wavelength, which equals 343 / 0.686 ≈ 500 Hz.