Both blocks in the diagram below are in static equilibrium. The 7 kg hanging mass is fully submerged in water and has a volume of 0.0037 m³. The rope connecting the blocks has a mass of 0.8 kg and is 1.7 m long. Determine the tension of the rope and the speed of any transverse waves that pass through the rope. Assume the mass of the rope has no significant effect on the tension. The density of water is 1000 kg/m³. F+= Vwave = Submit Answer
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- Problem 1 Let y1 = A sin(kr – wt + a) and y2 = B sin(kx – wt + B) be the equa- tions representing two traveling transverse wave. Here A and B are two possibly different amplitudes, and a and ß are two possibly different phase shifts. The wave vector k and angular frequency w of each wave are the same. a) What are the phasors for each wave, denoted 1 and 2? b) What is the sum of the phasors? c) What is the radius R and phase angle o of the phasor in part b)?Please solve and answer the question correctly please. Be sure to give the correct units.solve please v
- An ethernet cable is 3.90 m long and has a mass of 0.210 kg. A transverse pulse is produced by plucking one end of the taut cable. The pulse makes four trips down and back along the cable in 0.810 s. What is the tension in the cable?Nn.com - ClosetMaid 156 X Ebern Designs Cimino Desk & UO Home Décor + Apartment Sale X + gen/Iti/main.uni ent PRINTER VERSION ( BACK Chapter 16, Problem 025 Your answer is partially correct. Try again. = 7.19 m/s. The wave is A wave has the following properties: amplitude = 0.371 m, period traveling in the -x direction. What is the equation for the wave? = 0.770 s, wave speed %3D 0.371 У 3 1.13 8.16 rad/s *sin( *x) SHOW HINT LINK TO TEXT By accessing this Question Assistance, you will learn while you earn points based on the Point Potential Policy set by your udy instructor. Question Attempts: 2 of 6 used SAVE FOR LATER SUBMIT ANSWER Earn Maximum Points available only if you MacBook Pro Q Search or type URL %23 & 3 5 8 de т н K в N. * 00 C.Both blocks in the diagram below are in static equilibrium. The 8 kg hanging mass is fully submerged in water and has a volume of 0.0069 m³. The rope connecting the blocks has a mass of 0.8 kg and is 1.9 m long. Determine the tension of the rope and the speed of any transverse waves that pass through the rope. Assume the mass of the rope has no significant effect on the tension. The density of water is 1000 kg/m³. ► FT = Vwave =
- A violin string 30.4 cm long with linear density 0.674 g/m is placed near a loudspeaker that is fed by an audio oscillator of variable frequency. It is found that the string is set into oscillation only at the frequencies 1350 and 1800 Hz as the frequency of the oscillator is varied over a certain range. What is the tension in the string? Number i Units0.0058 kg/m is fixed at both ends. A 5.0-kg mass is hung from A string with a linear mass density of the string, as shown. If a pulse is sent along section A, what is the wave speed in section A and the wave speed in section B? %D B. A FA 35° 5 kg Image Description VA m/s VB = m/s B.A transverse wave traveling on a taut wire has an amplitude of 0.200 mm and a frequency of 580 Hz. It travels with a speed of 196 m/s. a) If the wave equation is written in the form y = A sin(kx - ωt), what are the parameters A, k, and ω? A = m b) The mass per unit length of this wire is 4.70 g/m. Find the tension in the wire (in newton).
- QUESTION 5 A transverse wave completes 12 full oscillations in two seconds. The wave moves at 31.2 m/s. Find the distance between two adjacent crests on the wave (in m). QUESTION 6 The linear density of a guitar string is 8.0 x 104 kg/m. A wave on the string has a frequency of 400 Hz and a wavelength of 60 cm. What is the tension in the string? QUESTION 7 The mathematical expression of a wave is given by y = 4.2 m Sin ( 1.2 rad/m x – 9.6 rad/s t). What is the speed of the wave (in m/s)? QUESTION 8 What is the sound intensity (in µW/m2) at 1.86 m from a 4 mW loudspeaker emitting sound uniformly in all directions?Tension is maintained in a string as in the figure below. The observed wave speed is v = 199 m/s when the suspended mass is m = 3.0 kg. (a) What is the mass per unit length of the string? _______________kg/m(b) What is the wave speed when the suspended mass is m = 2.28 kg? _________________m/s