I Review | Constants | Periodic TableA rope of length L is attached to a vibratingmechanism that vibrates with a constant frequency f.If a force F is exerted on the ends of the rope, therope is observed to vibrate in standing waves with 4antinodes.Part AF, has to be exerted on the end of the rope to make the rope vibrate in standing waves with 2 antinodes. Determine the ratio of F,to F1.回?FF1SubmitRequest AnswerProvide FeedbackNext >

The problem is based on the concept of vibrations of a string fixed at one end. Vibrations of a…

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Return to Blackboard Cutnell, Physics, 11e Help | System Announcements nent PRINTER VERSION 1 BACK NEXT Chapter 16, Problem 012 The mass of a string is 5.0 x 103 kg, and it is stretched so that the tension in it is 230 N. A transverse wave traveling on this string has a frequency of 150 Hz and a wavelength of 0.59 m. What is the length of the string? Number Units vir the tolerance is +/-5% 1 (T SHOW HINT LINK TO TEXT Talk By accessing this Question Assistance, you will learn while you earn points based on the Point Potential Policy set by your instructor. (Talk Question Attempts: 0 of 6 used SAVE FOR LATER SUBMIT ANSWER Earn Maximum Points available only if you answer this question correctly in four attempts or less. 0% ks ba Page 2 of 2 310 words OFocus TOG APR 1 3. 27 étv 4
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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 Knot
Question 3 A sinusoidal transverse wave is traveling on a string. Any point on the string: O moves in the same direction as the wave O moves in simple harmonic motion with a different frequency than that of the wave O moves in uniform circular motion with the same angular speed as the wave O moves in uniform circular motion with a different anar speed than the wave O moves in simple harmonic motion with the same angular frequency as the wave
Assignment PRINTER VERSION 1 BACK NEXT Chapter 16, Problem 045 A long slender bar is made from an unknown material. The length of the bar is 0.673 m, its cross-sectional area is 1.38 x 10- m2, and its mass is 2.32 kg. A sound wave travels from one end of the bar to the other end in 2.80 × 10-4 s. Find the Young's modulus of the unknown material. Number Units em the tolerance is +/-5% lem plem SHOW HINT blem LINK TO TEXT LINK TO TEXT blem oblem By accessing this Question Assistance, you will learn while you earn points based on the Point Potential Policy set by your instructor. oblem ere to search 8:12 PM 22 4/29/2020 20 ASUS 12 f3 f4 f5 f6 f7 f8 f9 f10 f11 f12 pause break prt sc sysrq insert delete
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