The speed of a wave is determined by the equation: speed = frequency x wavelength. Without the frequency, it is not possible to calculate the wave's speed using only the wavelength provided.
The speed of the wave can be calculated using the formula: speed = wavelength / period. In this case, the wavelength is 10 meters and the period is 2.0 seconds. Therefore, the speed of the waves is 5 m/s.
The speed of a wave is calculated by multiplying its frequency by its wavelength. In this case, the speed of the waves along the string would be 1.0 meters per second (2.0 Hz * 0.50 m).
The formula to calculate wavelength is: wavelength = speed of sound / frequency. Plugging in the values: wavelength = 1430 m/s / 286 Hz = 5 meters. Therefore, the wavelength of the sound wave traveling through the water is 5 meters.
For a wavelengt lambda in air with the speed of sound of c = 340 meters per second the frequency f: f = c / lambda. A wavelength of 5 meters equals a frequency of 68 Hz. A wavelength of 0.2 meters equals a frequency of 1700 Hz. There is a useful calculator for converting wavelength to frequency and vice versa. Scroll down to related links and look at "Acoustic waves or sound waves in air".
v=lambda*f v= 5m*2.0Hz v= 10m/s
The speed of the wave can be calculated using the formula: speed = wavelength / period. In this case, the wavelength is 10 meters and the period is 2.0 seconds. Therefore, the speed of the waves is 5 m/s.
The speed of a wave = (wavelength) times (frequency) = (10) x (1/2) = 5 meters per second.
The speed of a wave is calculated by multiplying its frequency by its wavelength. In this case, the speed of the waves along the string would be 1.0 meters per second (2.0 Hz * 0.50 m).
Speed = (wavelength) times (frequency) = (wavelength) divided by (period) = 30/5 = 6 meters per second
That depends, what wave you are talking about. The general relationship is: speed (of the wave) = frequency x wavelength. Solving for frequency: frequency = speed / wavelength If you are talking about an electromagnetic wave in a vacuum, the speed is about 300,000,000 meters/second. Other waves, however, can have quite different speeds.
Speed = frequency x wavelength. 200 hertz = 200 waves per second. These 200 waves will have a speed of 200*300 = 60,000 m/s The 1000 waves will have the same speed but it will take 5 times longer to travel the 300 metres.
The formula to calculate wavelength is: wavelength = speed of sound / frequency. Plugging in the values: wavelength = 1430 m/s / 286 Hz = 5 meters. Therefore, the wavelength of the sound wave traveling through the water is 5 meters.
For a wavelengt lambda in air with the speed of sound of c = 340 meters per second the frequency f: f = c / lambda. A wavelength of 5 meters equals a frequency of 68 Hz. A wavelength of 0.2 meters equals a frequency of 1700 Hz. There is a useful calculator for converting wavelength to frequency and vice versa. Scroll down to related links and look at "Acoustic waves or sound waves in air".
v=lambda*f v= 5m*2.0Hz v= 10m/s
2 Hz
The four properties that all waves have are amplitude (height of the wave), wavelength (distance between two consecutive points), frequency (number of waves passing a point in a given time), and speed (how fast the wave is moving).
Just divide the speed by the frequency. Since SI units are used, the wavelength will be in meters.