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Period = 1 / (frequency) = 1 / 6th of a second = [166 and 2/3] milliseconds

Speed = (wavelength) x (frequency) = 6 x 3 = [18] meters per second

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Q: A water wave has a frequency of 6 Hz and a wavelength of 3 m What is the period of these waves and What is the wave velocity?
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How does a decrease in velocity affect the frequency and wavelength of the waves entering the shallow water?

The frequency stays the same and wavelength decreases


What is the relationship between the frequency and wavelength of a water wave?

The frequency and wavelength of a water wave are inversely proportional. This means that as the frequency of the wave increases, the wavelength decreases, and vice versa. In other words, higher frequency waves have shorter wavelengths, while lower frequency waves have longer wavelengths.


The speed of sound in water is 1430 ms Find the wavelength of a sound with a frequency of 286 Hz traveling through the water?

Formula is velocity=frequency X wavelength so Wavelength = 5m


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.


Find the wavelength of a sound with a frequency of 286 Hz traveling through the water?

The speed of sound in water is approximately 1482 m/s. To find the wavelength, you can use the formula: wavelength = speed of sound / frequency. Thus, the wavelength of a sound with a frequency of 286 Hz traveling through water would be approximately 5.18 meters.


The speed of sound in water is 1430 meters per second What is the wavelength of a sound with a frequency of 286 Hz traveling through the water?

The formula for speed is velocity= wavelength x frequencyIf the speed of sound in water is 1430m/s you would replace that as the velocity.1430= wavelength x frequencyFrequency is 286 Hz, therefore you would replace that for the frequency in the equation.1430= wavelength x 286Now you would divide 1430 by 236, in order to get the wavelength alone.1430/286= wavelength.So the wavelength is 5 m


How does increasing the wavelength affect the frequency?

The product of (frequency) times (wavelength) is always the same number ... it's the speed of the wave. So if the frequency is changed by some percentage, the wavelength changes by the same percentage in the other direction, in order to keep their product the same as it was.


What is the speed of water wave if it's frequency is equal to the distance between two successive waves is 1.5?

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Are the velocities of different colours different?

No, the velocities of all the different colors and electromagnetic radiation (i.e. - Radio waves, Infrared waves, Microwaves, Visible Light, Ultraviolet Rays, X-Rays, and Gamma Rays) are the same.In a vacuum, this velocity (the speed of light), commonly referred to as c, is approximately 3.0*10^8 or 300000000 meters/second (or 186000 miles/second). In other media such as air, glass, water the velocity or speed of light would be differentAlthough all colors have the same velocity, each color is identified by its frequency and wavelength. A color with a higher frequency has a shorter wavelength (and a lower frequency has a longer wavelength.This equation demonstrates this relationship between frequency and wavelength for a given speed:v = fλwhere v=velocity/speed, f=frequency in Hertz, λ=wavelength in metric units (meters, centimeters, etc)


What is the relationship between speed and frequency of a water wave?

speed = frequency x wavelength


How does the frequency of a water wave change as its wavelength changes?

With a water wave, an increase in the length of the wavelength will result in a decrease in the frequency of the wave. We could say that there is an inverse relationship between the frequency and the wavelength. As one increases, the other decreases, and as one decreases, the other increases.


What is the wavelength of a water wave that has a frequency of 2.50 Hz and a speed of 4.0 ms?

To find the wavelength of the water wave, you can use the formula: wavelength = speed / frequency. Plugging in the values given, you get: wavelength = 4.0 m/s / 2.50 Hz = 1.6 meters. Therefore, the wavelength of the water wave is 1.6 meters.