78. **A string vibrates at a frequency of 170 Hz in the th harmonic. The next successive frequency is 204 Hz (for n + 1). Determine whether the string is tied at one end or at both ends. If the speed of transverse waves on the string is 218 m/s, find the length of the string.
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- 2. Speed on a string Two strings have been tied together with a knot and then stretched between two rigid supports as in the figure. The strings have linear densities µ₁ = 1.4x10+ kg/m and μ₂ = 2.8x10 kg/m. Their lengths are L₁ = 3.0 m and L2 = 2.0m, and string 1 is under a tension of 400 N. Simultaneously, a pulse is sent on each string from the rigid support end, toward the knot. Which pulse reaches the knot first? 4₁ L₂ Knot31. * Find a resultant wave for the two waves shown in Figure P11.31 at the instant they are traveling through the same medium. Figure P11.31 AP (N/m²) AP (N/m²) 0.002 0.001 f = 200 Hz W X A..3.) Consider a system like the one below. You want to measure the mass density of a cord. Understanding the relationship between wave speed and tension in a string, you decide to hang a 10 kg mass from the end of the string as shown. When you pluck the now tensioned string, you hear a note. You measure the frequency of the note with an app on your phone, finding it to be 130 Hz. What is the mass density of the string? 1 m 10 kg mg
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