Answered: 4. Consider a string with length L and… | bartleby

Related questions

Question

4. Consider a string with length L and both ends free/loose. What types of standing waves can we have in this case?
Determine the fundamental frequency in terms of L, the speed of traveling waves v, and numerical factors. And then
determine how all of the possible harmonics are related to the fundamental frequency. It might help to draw some pictures.

Expert Solution

Trending now

This is a popular solution!

Step by step

Solved in 7 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

5. Two waves of the same amplitude and wavelength A meet. They interfere destructively. What is a possible phase difference between the waves? a. 0 b. 1 2 C. 入 d. 21
1. What is the wavelength of waves you create in a swimming pool if you splash your hand at a rate of 2.2 Hz and the waves propagate at 1 m/s? Wavelength, A:
A string of length L=1.68 m is attached at both ends. The string is parallel to an x-axis and extends from x=0 to x=L. The speed of waves on this string is v= 285.6m/s. For 3. standing waves: a. What is the wavelength of the fundamental mode (n=1 mode), 4 ? b. Whatis the frequency of the fifth harmonic, f;? c. Draw the envelopes of the string displacement wave function for the first three harmonics and label each node with the letter 'N' and antinode with letter 'A'. Please make three separate drawings. d. For the third harmonic, n=3 , what are the three x values where the transverse speed of the string is a maximum, X, Xm2, X3 compared to other xlocations? e. For this string oscillating in the third harmonic (n=3), with a maximum deviation from equilibrium of 2y. = 0.280 cm at points x= xml,X =Xm2,X= X3 , what is the maximum (positive) transverse speed of the string (speed perpendicular to the direction of the string), Max(u,(xmt)) ?
E6. Suppose that a guitar string has a length of 0.7 m, a mass of 0.14 kg, and a tension of 205 N. a. What is the mass per unit of length of this string? b. What is the speed of a wave on this string?
AGREE OR DISAGREE Directions: Write the word Agree if the statement is correct. Otherwise, write the word Disagree. Statements Agree/Disagree 1. Vibrations of materials do not create sound. 2. Sound can trúvél in á vůčuuim úf itn space. 3. Sound travels faster in wind than in solid materials like steel. 4. Red, which is the first color in the invisible spectrum, has the highest frequency. 5. Light does not have anything to do with the color we see on objects. 6. Violet has the lowest energy because it has the lowest frequency. 7. Heat and temperature are one and the same. 8. When an object is heated, the motion of the molecules of that object slows down. 9. Heat is something that an object contains. 10. Convection, as a method of heat transfer, does not involve the movement of air imolecules.
A standing transverse wave is formed in a string that is 5.0 m long. Both ends of the string are fixed. Eight loops are present in the standing wave 1. Draw the standing wave. Label one node and one antinode. 2. Find the wavelength of the wave. Fully explain how you found the wavelength. 3. If it takes a wave 0.60 s to travel the length of the string, find the speed of the wave. 4. Find the frequency of the wave.
Answer 6-10. It is easy to answer all. Thanks
4. A telephone cable is stretched between two poles with a tension force of 3000 N. The cable has a linear mass density of 7.5 kg/m. What is the maximum speed of a wave on the cable? Using the speed from Question 4, what is the wavelength of the wave if it resonates at a frequency of 1.2 Hz?
3.Which graph shows a linear relationship? The frequency is linear when plotted as a function of inverse length (ff vs. 1/L1/L). The frequency is linear when plotted as a function of length (ff vs. LL). 4.Draw a best-fit line through the linear graph’s data, and use the slope of this line to determine the wave speed. Express your answer in meters per second to two significant figures.