Why would an improper measurement (using aruler) of a string and improper measuremnt of frequency cause...
Melde’s Lab 2. Assuming that the measurement of both values of u using the analytical balance are the true values, calculate a% error for each of your experimental (standing wave) values of u and enter your results in the spaces below. Results %error : kg/m %error kg/m String #1 n (# antinodes) | m (kg) f (Hz) d (meters) o.15o 27.2 2. 니2。1 2. o.25 Hi.4レ 2. 0. 385 M,-Dooasse--kg LHOe_ Direct measurement of μ1 ,: _m String #2 m...
In this experiment you will drive the string with an oscillator of fixed frequency. The driving frequency cannot be varied to produce different normal-mode standing-wave patterns. Since v = VFT/μ. wherefis a constant. μ is also constant for a given string. By varying FT, appropriate wavelengths can be selected that will "fit" into a given string length, L, to produce standing waves. Pre-lab Assignment Rewrite equation (1) to obtain a form of an equation of a straight line, y =...
The fundamental frequency of a standing wave on a 1.1-m-long string is 450Hz. What would be the wave speed of a pulse moving along this string?
1. The lowest frequency of a guitar string with a length 0.65 m is 248 H s. What is the speed of the wave on this string? . Same guitar, same string as in Question 1. If the mass per unit length of the string is 0.5g/m what is the tension on the string? Slanding Waves 3. A tuning fork produces two maxima, n 1 and n 3, separated by 48 em. Find the frequency of the tuning fork. 4....
A string of length L vibrates at its third harmonic frequency. The string could be grasped at what position without completely destroying the standing wave pattern? A) L4, B) L2, C) L8, D) L3.
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...
A standing wave on a string that is fixed at both ends has frequency 80.0 Hz. The distance between adjacent antinodes of the standing wave is 16.0 cm. What is the speed of the waves on the string, in m/s?
A string, stretched tight, is observed to vibrate with a fundamental frequency of 50 Hz. We then vibrate the string at the frequencies shown below. Which frequency would NOT produce a standing wave on the string? Not enough information to determine 200 150 100 25
If the tension in a 2 m string was provided by a 150g mass, and the µ for the sting was 1.0 g/m, what is the speed of a wave traveling along the string, and what is the fundamental frequency for a standing wave on this string? If you doubled the mass density of the string and tripled the hanging mass, what would happen to the fundamental frequency of the standing wave? Please answer both!
We have a lab report contains two experiments about standing waves. The first one is using a machine which can provide fixed frequency 60Hz and one string which one said is tied with this machine and another side is attached with mass. After changing the mass every time, we can get different waves with a different mode. The second one is using a metal spring on the floor, Have two members of your group hold the two ends of spring,...