A violin string has an initial tension of 45.0 N. When playing the note B on...
A violin string has an initial tension of 45.0 N. When playing the note B on the violin, the frequency is found to be 509 Hz. This note should actually have the frequency 494 Hz, so the player changes the tension to get the correct frequency. What is the new value of the tension? Give your answer to three significant figures.
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A violin string has an initial tension of 45.0 N. When playing
the note B on...
Question 15 (1 point) A violin string is playing a note in its fundamental mode of...
Question 15 (1 point) A violin string is playing a note in its fundamental mode of vibration at 440. Hz. The length of the vibrating portion of the string is 36.0 cm and the mass is 0.320 grams. To what tension must the string be stretched? 69.6 N 112 N 89.2 N 32.ON
The G string on a violin has a fundamental frequency of 196 Hz. It is 30.0...
The G string on a violin has a fundamental frequency of 196 Hz. It is 30.0 cm long. While this string is sounding, a nearby violinist effectively shortens (by sliding her finger down the string) the G string on her violin until a beat frequency of 4.7 Hz is heard between the strings on the two violins. When this occurs, how far (cm) down the string did she slide her finger? Assume that the velocity of waves on the violin...
A violin string of length 43 cm and mass 1.1 g has a frequency of 495...
A violin string of length 43 cm and mass 1.1 g has a frequency of 495 Hz when it is vibrating in its fundamental mode. (a) What is the wavelength of the standing wave on the string? cm (b) What is the tension in the string? N (c) Where should you place your finger to increase the frequency to 645 Hz? cm from the fixed end of the string (from the peg of the violin)
A violin string of length 38 cm and mass 1.3 g has a frequency of 457...
A violin string of length 38 cm and mass 1.3 g has a frequency of 457 Hz when it is vibrating in its fundamental mode. (a) What is the wavelength of the standing wave on the string? cm (b) What is the tension in the string? N (c) here should you place your finger to increase the frequency to 607 Hz? cm from the fixed end of the string (from the peg of the violin) eBook
*Mass Per Unit Length of String The experimental procedure was carried out, and tension versus wavelength...
*Mass Per Unit Length of String The experimental procedure was carried out, and tension versus wavelength squared was plotted. The slope of the graph was found to be 2.4 Nm?, and the frequency was determined to be 40.4 Hz. Determine the mass per unit length of the string, expressing answer in SI units, to 3 significant figures Entering numbers in scientific notation: Example: 1.45 x 10 should be entered as 1.45E-9 Answer:
The lowest string of a certain guitar is 64 cm long and has a mass density...
The lowest string of a certain guitar is 64 cm long and has a mass density of 6.3 g/m. The string is fixed at its ends by the bridge and the nut of the guitar. (a) What tension in the string is required to tune it so that its fundamental frequency matches the E2 musical note at 82.41 Hz? Give an answer in both N and lbs. (b) The effective string length can be shortened by pressing your finger down...
Please do all three! Problem 11 A string that has a mass of 5.0 g and...
Please do all three!
Problem 11 A string that has a mass of 5.0 g and a length of 2.2 m is pulled taut with a tension of 74 N. 1) Calculate the speed of transverse waves on the string. (Express your answer to two significant figures.) Submit Problem 12 A long rope is shaken up and down by a rodeo contestant. The transverse waves travel 12.8 m in a time of 2.1 s. The tension in the rope is...
Detailed explantion please. PITY263: Ch 16 Written Tomework, Due Thursday, Sept 12 at 8:00 am Note...
Detailed explantion please.
PITY263: Ch 16 Written Tomework, Due Thursday, Sept 12 at 8:00 am Note on homework solutions: In order to receive full credit for homework solutions, your work needs to be presented clearly, neatly, and completely. State answers to no more than three significant figures. 1. A sinusoidal transverse wave is traveling along a taut wire in the negative x-direction. It has an angular wave number of 1.50 cm-1, a period of 2.50 ms, and an amplitude of...
When one note is above another note by an octave, the frequency of the higher pitch...
When one note is above another note by an octave, the frequency of the higher pitch note is double that of the lower pitch note. The word octave may make you think that there are 8 steps from the lower note to the one an octave above. But wait! How many steps are there on a piano from middle C to the next C above? Each key is a step. If each next key is a step, how many are...
can someone help me with this physics Lab Vibrating String Experiment I'm confused please and thank...
can someone help me with this physics Lab Vibrating String
Experiment I'm confused please and thank you
I have This data for the Five-time I did the Experience
Vibrating String Experiment Objective To study the factors affecting the velocity of waves in a stretched string. Apparatus Linear transducer, function generator, string, meter stick, mass set, table clamp with pulley. Optional: strobe light. Part A Attach one end of a string to the motor and pass the other end of the...
Question 15 (1 point) A violin string is playing a note in its fundamental mode of vibration at 440. Hz. The length of the vibrating portion of the string is 36.0 cm and the mass is 0.320 grams. To what tension must the string be stretched? 69.6 N 112 N 89.2 N 32.ON
A violin string of length 38 cm and mass 1.3 g has a frequency of 457 Hz when it is vibrating in its fundamental mode. (a) What is the wavelength of the standing wave on the string? cm (b) What is the tension in the string? N (c) here should you place your finger to increase the frequency to 607 Hz? cm from the fixed end of the string (from the peg of the violin) eBook
*Mass Per Unit Length of String The experimental procedure was carried out, and tension versus wavelength squared was plotted. The slope of the graph was found to be 2.4 Nm?, and the frequency was determined to be 40.4 Hz. Determine the mass per unit length of the string, expressing answer in SI units, to 3 significant figures Entering numbers in scientific notation: Example: 1.45 x 10 should be entered as 1.45E-9 Answer:
Please do all three!
Problem 11 A string that has a mass of 5.0 g and a length of 2.2 m is pulled taut with a tension of 74 N. 1) Calculate the speed of transverse waves on the string. (Express your answer to two significant figures.) Submit Problem 12 A long rope is shaken up and down by a rodeo contestant. The transverse waves travel 12.8 m in a time of 2.1 s. The tension in the rope is...
Detailed explantion please.
PITY263: Ch 16 Written Tomework, Due Thursday, Sept 12 at 8:00 am Note on homework solutions: In order to receive full credit for homework solutions, your work needs to be presented clearly, neatly, and completely. State answers to no more than three significant figures. 1. A sinusoidal transverse wave is traveling along a taut wire in the negative x-direction. It has an angular wave number of 1.50 cm-1, a period of 2.50 ms, and an amplitude of...
can someone help me with this physics Lab Vibrating String
Experiment I'm confused please and thank you
I have This data for the Five-time I did the Experience
Vibrating String Experiment Objective To study the factors affecting the velocity of waves in a stretched string. Apparatus Linear transducer, function generator, string, meter stick, mass set, table clamp with pulley. Optional: strobe light. Part A Attach one end of a string to the motor and pass the other end of the...
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