A steel cable on a bridge has a linear mass density of 15 kg/m. If the cable has been pulled taunt with a tension of 9541 N, what is the speed of a wave on it?
Q: (a) Determine the speed of transverse waves on a string under a tension of 95.0 N if the string has…
A: a. the speed of the wave is v=FTμ=FTm/l=FTlm=95 N2 m6.5×10-3 kg=170.97 m/s
Q: A transverse traveling wave on a string is given by: y(x,t) = (2 cm). sin((100 s-1)t - (12 m-1)x)…
A: Wave equation:y(x,t) = (2 cm). sin((100 s-1)t - (12 m-1)x)Compare with standard equation of wave, ω…
Q: A wave is sent back and forth along a rope 4 m long with a mass of 1.5 kg by exerting a force of 30…
A: Given data: Length (L) = 4 m Mass (m) = 1.5 kg Force (F) = 30 N Required: The linear mass density…
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Q: A steel cable with total length 68 m and mass 130 kg is connected to two poles. The tension in the…
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Q: A cable is stretched between two posts 3.00 m apart.The speed of waves on this cable is 96.0 m/s,…
A: Linear mass density is defined as the mass per unit length. The expression for speed of the wave in…
Q: A nylon rope of length 18m is under a tension of 1.8 × 104 N. The total mass of this rope is 2.7 kg.…
A: Given, Length of the rope = 18 m Tension in the rope = 1.8 * 104 N Total mass of the rope = 2.7 kg…
Q: A nylon rope of length 12m is under a tension of 1.5 * 10 ^ 4 * N N. The total mass of this rope…
A: Given Data : Length of rope (L) = 12 m Tension in rope (T) = 1.5 * 104 N Total mass of rope (M) =…
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A: (a) the tension in the rope is same as the weight of the box. that is, T=mg the speed of transverse…
Q: A uniform rope of total mass 4.9 kg and length 1.6 m is suspended vertically; the lower end of the…
A: Mass of the rope is M = 4.9 kg Length of the rope is L = 1.6 m Acceleration due to gravity g = 9.8…
Q: be 0.701 m and the frequency is 42.4 A transverse wave travels across a string having a linear mass…
A: Speed of wave (V) = f×λ √(T/μ) = f×λ Now, tension T = f^2 × λ^2 × μ T = 42.4^2 × .701^2 × .063…
Q: Here we have a wave that has an amplitude of .2m, frequency of 1.76Hz and wavelength of .49m.…
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Q: A nylon rope of length 16m is under a tension of 1.5 × 104 N. The total mass of this rope is 2.1 kg.…
A:
Q: the period of oscillation of a given wave is 3.4 seconds and the wave is travelling at 12 m/s, what…
A: Speed v = 12 m/s Time t = 3.4 sec
Q: A stretched string is 2.00 m long and has a mass of 18.0 grams. When the stringoscillates at 440 Hz,…
A: Length (L) = 2 m mass of string (m) = 18 g = 0.018 kg frequency (f) = 440 Hz
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A: Given:- A wave traveling on a Slinky that is stretched to d = 4 m. It takes t = 2.05 s to travel…
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A: The is based upon the displacement of a wave on a vibrating string. The equation is given as follows…
Q: A plano wire has a linear mass density of 4.55 x 10-3 kg/m. Under what tension (in N) must the…
A: Given, µ = 4.55 ×10-3 Speed = 600 m/sec We need to calculate, Tension =?
Q: A string with a linear density of 2 kg/m is stretched to a length of 0.3 meters and fastened at both…
A: speed = Tensionmass per unit lengthspeed = 18002speed = 900speed = 30 m/s
Q: A 28kg block is suspended from the ceiling using thin rope (0.009 kg/m). The rope is plucked,…
A: mass of block (m) = 28 kg linear mass density (μ) = 0.009kgm
Q: steel cable with total length 53 m and mass 120 kg is connected to two poles. The tension in the…
A: Given : L = 53 m m = 120 kg T = 1578 N f = 2 Hz
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A: (a)Let v be the velocity of the wave, lambda be the wavelength, f be the frequency of vibrations, t…
Q: The middle C string on a piano is under a tension of 919 N. The period and wavelength of a wave on…
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Q: A 120-cm string has a total mass of 80 g. One end of the string is tied to a post. A pulley is…
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A steel cable on a bridge has a linear mass density of 15 kg/m. If the cable has been pulled taunt with a tension of 9541 N, what is the speed of a wave on it?
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- A nylon rope of length 16m is under a tension of 1.5 × 104 N. The total mass of this rope is 2.1 kg. If a wave pulse starts at one end of this rope, find its speed. Calculate to one decimals?A steel cable with total length 57 m and mass 140 kg is connected to two poles. The tension in the cable is 1,981 N, and the wind makes the cable vibrate with a frequency of 2 Hz. Calculate the wavelength of the resulting wave on the cable.A nylon rope of length 12m is under a tension of 1.7 × 104 N. The total mass of this rope is 2.4 kg. If a wave pulse starts at one end of this rope, find its speed. Calculate to one decimals?
- A string with a total length of 2.5m and a mass of 0.0250 kg is connected to two poles. The tension in the cable is 75Nand it is set vibrating with a frequency of 25Hz. (i). What is the linear mass density? (ii). What is the speed of waves on the string? (iii). Calculate the wavelength of the resulting wave in the cable?For any given wave (moving at a constant speed), if the frequency quadruples, the wavelengthThe lowest A on a piano has a frequency of 27.5 Hz. Assume: The tension in the A piano wire (of length 0.51 m) is 305 N, and one-half wavelength occupies the wire. What is the mass of m the wire? Answer in units of kg.
- A nylon rope of length 25m is under a tension of 1.3 × 104 N. The total mass of this rope is 2 kg. If a wave pulse starts at one end of this rope, find its speed. Calculate to one decimals?A standing wave is created on a slinky using a frequency of 1.86 Hz. If the speed of the wave down the slinky is 1.42 m/s, how far apart will the nodes on the slinky be?