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Ask questions, doubts, problems and we will help you. 1) the distance between two consecutive crests in a wave train produced in a string is 5 cm if two complete waves pass through any point per second, the velocity of wave. (i) we know that the distance between two consecutive crests or two consecutive troughs of a wave is equal to the wavelength of the wave.
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If the waves are produced at the rate of 180/ min, calculate: By multiplying these values, we get the velocity of the **wave **in the string. The velocity of a wave in a string can be calculated using the formula:
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Given that, the distance between three consecutive troughs in a wave produced in a string is 4 cm and 2.5 wave cycles pass through.
So the distance between the three consecutive. The distance between three consecutive crests of wave is 60 cm. The distance between three consecutive troughs in a wave produced in a string is 4 cm. Given that the distance between three consecutive troughs is 4 cm, the wavelength λ is 2 cm (since the distance between three troughs is two wavelengths).
If 2.5 wave cycles pass through any point in a second, the wave in the string has velocity. If 4 complete waves pass through any point per second, then the. Step by step video & image solution for the distance between a crest and its nearest trough is 2.5 cm. The distance between three consecutive troughs in a wave produced in a string is 4.
Wavelength time period wave velocity.
