In 150 to 200 words How might one locate the positions of nodes and antinodes in a vibrating body?
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Q: 6) Consider a bob attached to a vertical string. At t = 0, the bob is displaced to a new position…
A: consider a bob attached to a vertical string. At t = 0, the bob is displaced to a new position where…
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A: To solve: The finite method use for determining the natural frequency of the system shown.
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A: Given: A string oscillating between two posts consist of 4 nodes. A point, where the wave has…
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Q: Two simple motions are represented by y1=5(sin2πt+√3 cos2πt) y2=5sin(2πt+π/4) The ratio of the…
A: C
Q: Given zero initial conditions a harmonic input f(t)= 20 sin(20 tt), k= 2000 N/m, and a mass of 0.45…
A: Given, Harmonic input, ft=20 sin20πt k=2000 N/m Mass, m=0.45 kg
Q: The lowest natural frequency of a vibrating system is called as its
A: Given :- The lowest natural frequency of a vibrating system is called as
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A: We know that, There are many types of resonance, namely- Optical, Mechanical, Electrical, Atomic,…
Q: 2. A 3.00-m-long wire having a mass of 0.200 kg is fixed at both ends. The tension in the wire…
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A: We have to find the final velocity (V')=? The data provide is as given below- Initial time period=T0…
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Q: 5. For the following displacement functions describing simple harmonic mo- tion, identify the…
A: simple Harmonic motion.
Q: Question 4 A string fixed at both ends vibrates in its 5th harmonic. How many nodes (N) and…
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Q: A pulse is moving toward the end of a spring with a speed of 80 cm/s. It is not known whether the…
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Q: Draw only the product of the following two harmonic motions X = 2Asin wt Y = A sin (2wt + 45°)
A: here two waves are given, X = 2Asinwty = A sinπ/4 +wt
Q: A simple harmonic oscillator takes 10 s to undergo 20 complete vibrations. The frequency of its…
A: given; time t = 10 s number of oscillations = 20
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Q: A(k)= Ao = 0 Ak 2 otherwise ko <k < ko + Ak 2
A: Given: A(k)=A0 k0-∆k2≤k≤k0+∆k2 =0 otherwise y(x)=∫A(k) coskx dky(x)= 2A0x sin ∆k2x cos…
Q: In general, the smaller the vibrating element, the its pitch O lower higher softer louder
A: Asked: The nature of pitch when the vibrating element is smaller.
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A: TO find-Ratio of lengths of two wires=?Given-Material of wire is sameTension to the wire is…
Q: A guitar string vibrates at 146.8 Hz when its full length is allowed to vibrate. If it is now held…
A: ...
Q: A stretched string, long L, fixed at both ends, vibrates on the fifth harmonica. How far from one…
A: The given length of the string is L and it vibrates on the fifth harmonics so as per the question…
Q: In Is the amplitude of a lightly camped oscillator drops to 95 % of it's original value. The…
A: Given data: The drop in oscillation is ∆A=95%.
Q: The equation of motion of a particle in simple harmonic motion is given by: x(t) = 0.3cos(wt), where…
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Q: Two identical transverse waves on a string travelling in opposite directions at a speed or 3.6 m/s…
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Q: 2 6 +6 의ime 5 7 10 15 20 (s) -6 4 8.
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A: Given that: To determine the fundamental frequency and the type of wave represented in the power…
Q: 6) Consider a bob attached to a vertical string. At t 0, the bob is displaced to a new position…
A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…
Q: A simple pendulum is made of a 2 m-string and a bob of mass m. At t = 0, the pendulum is at its…
A: V=0.2m/s Length=2m
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Q: a metal rod pivots from one of its end oscillating at 2.0 Hz
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Q: Consider the case of normal modes of vibration for the air column with only one end closed. What is…
A: Given: normal modes of vibration for the air column with only one end closed.
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Q: A stretched string fixed at each end has a mass of 46.0 g and a length of 8.20 m. The tension in the…
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Q: ACt) = Ao + Apeak Ao, Apeal =)
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Q: 140 120 100 80 60 40 20 10 15 20 25 1/m (kg-1] w^2 [rad2/s2]
A: From the graph , w2 varies linearly with 1/m w is angular frequency , m is mass.
Q: 1. Given the equation and graph shown below, what is the amplitude (A), period (T), angular…
A: Given value--- harmonic equation y = 25 sin ( pi/3 t + pi/4) . We have to find--- amplitude…
In 150 to 200 words
How might one locate the positions of nodes and antinodes in a vibrating body?
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