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How fast is a wave moving if its wavelength is 10meters and its frequency is 110Hz?
The speed of a wave is equal to its wavelength times its frequency. Since you are using SI units, the answer will be in meters/second.
If a wave is moving at a constant speed and the wavelength is doubled what will happen to the frequency?
IF a wave moving at a constant speed were to have it's wavelength doubled (Wavelength x 2), then the frequency of the wave would be half of what it originally was (Frequency / 2).
How is the wavelength related to frequency for waves moving at a constant speed?
Whatever the wavelength and frequency happen to be, their product is always equal to the speed.
How fast is a wave moving if its wave length is 10 meters and its frequency is 110 Hz?
The formula for a wave in this case is: speed = frequency x wavelength. Since Hz = 1/second, the answer will be in meter/second.
Examples of the equation velocity equals frequency wavelength?
Any wave. Of you have a wave (light, water etc.), it will have a frequency and a wavelength. Multiply these and you get the speed at which the wave is moving.
If a wave has amplitude of 0.2 meters a wavelength of 0.5 meters and a frequency of Hz at what speed is it moving?
The speed of a wave is given by the formula speed = frequency x wavelength. Substituting the given values, the speed of the wave would be 0.25 m/s (1 Hz x 0.5 m).
Which are the four properties that all waves have?
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).
How fast is a wave moving if its wavelength is 10meters and its frequency is 110Hz?
The speed of a wave is equal to its wavelength times its frequency. Since you are using SI units, the answer will be in meters/second.
What is the frequency of a sound wave moving in a room temperature if the wavelength of 0.686 meters?
The speed of sound varies with temperature. At commonly experienced temperatures, it's about 343 meters/sec. Frequency = speed/wavelength = 343/0.686 = 500 Hz
If a vacuum has a frequency of 1.01000000000000000000 what is the wave length?
In a vacuum, the speed of light is approximately 3.00 x 10^8 m/s. To calculate the wavelength, you can use the equation: wavelength = speed of light / frequency. Thus, the wavelength in this case would be approximately 2.97 x 10^8 meters.
How is wavelength related to frequency for waves moving at a constant speed?
Wavelength and frequency are inversely proportional for waves moving at a constant speed. This means that as the wavelength increases, the frequency decreases, and vice versa. The product of wavelength and frequency is always equal to the speed of the wave.
If a wave is moving at a constant speed and the wavelength is doubled what will happen to the frequency?
IF a wave moving at a constant speed were to have it's wavelength doubled (Wavelength x 2), then the frequency of the wave would be half of what it originally was (Frequency / 2).
What are 4 basic properties of waves?
Four basic properties of waves are amplitude (the height or intensity of the wave), wavelength (the distance between two consecutive points of a wave with the same phase), frequency (the number of waves that pass a point in a certain amount of time), and speed (how fast the wave is moving).
How is wave length related to frequency fro waves moving at a constant speed?
The wavelength and frequency of a wave are inversely related when the wave is moving at a constant speed. This means that as the wavelength increases, the frequency decreases, and vice versa. This relationship is described by the equation: speed = frequency x wavelength.
What is the frequency of a sound wave moving in air at room temperature if the wavelength is 78 meters?
The speed of sound in air at room temperature is approximately 343 m/s. To find the frequency, you can use the formula: frequency = speed of sound / wavelength. So, the frequency of a sound wave with a wavelength of 78 meters in air at room temperature would be 343 m/s / 78 m = around 4.4 Hz.
How is the wavelength related to frequency for waves moving at a constant speed?
Whatever the wavelength and frequency happen to be, their product is always equal to the speed.
What is the wavelength of 680 Hz tone moving through air?
The wavelength of a 680 Hz tone moving through air can be calculated using the formula: wavelength = speed of sound / frequency. The speed of sound in air at room temperature is approximately 343 m/s. Therefore, the wavelength of a 680 Hz tone in air would be about 0.504 meters (504 mm).
