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1. If you cut the length of the string of a pendulum by a quarter (1/4),...
The third harmonic of a guitar string produces a note with a frequency of 330 Hz...
The third harmonic of a guitar string produces a note with a frequency of 330 Hz from a string with a linear mass density of 4.47*10-3 kg/m. The length of the guitar string is 0.65 meters. Draw a picture of the standing wave described above. Label the nodes and antinodes. Determine the wavelength of the standing wave that produces this note. What is the length of the guitar string (just the part that’s vibrating)? What is the tension in the...
Consider the 4th harmonic (standing wave with n = 4) on a string of length L...
Consider the 4th harmonic (standing wave with n = 4) on a string of length L with fixed ends, mass density μ and tension T .a) On a standing wave, the nodes are the points that are not moving, and the antinodes the ones that move with the biggest amplitude. How many nodes and antinodes are on the 4th harmonic? Count them and make a graph of the function clearly showing where all the nodes and antinodes are located. b)...
A string is stretched to a length of 1.2 m and a standing wave is produced...
A string is stretched to a length of 1.2 m and a standing wave is produced with a speed of 4 m/s. The pattern for the standing wave is that of one anti-node between two nodes. What is the frequency that produces a standing wave? Include a diagram of the standing wave
1. Use the equation yetar(x.0 - 2A cos(cos(x-ot +) to determine the initial displacement of the...
1. Use the equation yetar(x.0 - 2A cos(cos(x-ot +) to determine the initial displacement of the total wave when (a) ф-: 0 (b) ф з (c) ф-2 (d) ф :IT (e) ф-300"(f) ф-270" 2. (a) What is the relationship between sound level, energy, power and intensity? would the intensity of a sound heard by a listener be reduced if the listener moved three times further away from the source? 9 (b) By what proportion 3. For a standing wave on...
Question 13 4 pts If a standing wave on a string of length, L, shows four...
Question 13 4 pts If a standing wave on a string of length, L, shows four peaks and four troughs between two fixed points, what is NOT true about this wave? It has 5 nodes The frequency is equal to 46/L m-4 The wavelength is equal to 2L It has 4 antinodes
You make a conical pendulum (Figure 1) using a string of length 0.800 m and a...
You make a conical pendulum (Figure 1) using a string of length 0.800 m and a bob of mass 0.150 kg. When the bob is moving in a circle at a constant speed, the string is at an angle of 30.0 ∘ from the vertical. Express your answers with the appropriate units. a) What is the radius of the circle around which the bob moves? b) How much time does it take the bob to complete one circle? c) What...
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two...
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two (fixed) clamps. It is vibrated at its third harmonic with a frequency of 240 Hz. a) Draw the standing wave pattern, labeling nodes and antinodes. b) What is the tension in the string? c) What is the fundamental frequency?
4. A metal wire is 0.400 m long and is under a Tension force of 75.ON....
4. A metal wire is 0.400 m long and is under a Tension force of 75.ON. a) What is the mass per unit length if it has a fundamental frequency of 440 Hz? b) How fast does a sound wave travel in the wire? c) What are the frequencies of the 2nd, 3rd, and 7th harmonics? d) What are the wavelengths for the 1st, 2nd, and 7th harmonics? e) What new tension must you exert on the string for the...
Suppose you have a string of length L= 0.6m on which waves travel at a speed...
Suppose you have a string of length L= 0.6m on which waves travel at a speed of 130 m/s. If standing waves are produced, how many antinodes does the second harmonic contain?
Problem 2 [8 pts] Oscillator As a quality control technician at a violin string factory, you cut a sample of E-string o...
Problem 2 [8 pts] Oscillator As a quality control technician at a violin string factory, you cut a sample of E-string off a large roll. The sample that you cut has a mass of ms = 1.021 grams and a full length of 2.5 meters. To test the string, you stretch some of it across a length L = 0.35 m, applying tension by means of a hanging mass m (as pictured). A variable frequency oscillator is used to excite...
1. Use the equation yetar(x.0 - 2A cos(cos(x-ot +) to determine the initial displacement of the total wave when (a) ф-: 0 (b) ф з (c) ф-2 (d) ф :IT (e) ф-300"(f) ф-270" 2. (a) What is the relationship between sound level, energy, power and intensity? would the intensity of a sound heard by a listener be reduced if the listener moved three times further away from the source? 9 (b) By what proportion 3. For a standing wave on...
Question 13 4 pts If a standing wave on a string of length, L, shows four peaks and four troughs between two fixed points, what is NOT true about this wave? It has 5 nodes The frequency is equal to 46/L m-4 The wavelength is equal to 2L It has 4 antinodes
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two (fixed) clamps. It is vibrated at its third harmonic with a frequency of 240 Hz. a) Draw the standing wave pattern, labeling nodes and antinodes. b) What is the tension in the string? c) What is the fundamental frequency?
4. A metal wire is 0.400 m long and is under a Tension force of 75.ON. a) What is the mass per unit length if it has a fundamental frequency of 440 Hz? b) How fast does a sound wave travel in the wire? c) What are the frequencies of the 2nd, 3rd, and 7th harmonics? d) What are the wavelengths for the 1st, 2nd, and 7th harmonics? e) What new tension must you exert on the string for the...
Problem 2 [8 pts] Oscillator As a quality control technician at a violin string factory, you cut a sample of E-string off a large roll. The sample that you cut has a mass of ms = 1.021 grams and a full length of 2.5 meters. To test the string, you stretch some of it across a length L = 0.35 m, applying tension by means of a hanging mass m (as pictured). A variable frequency oscillator is used to excite...
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