3/20/2024 0 Comments A tuning fork of frequency 480hz![]() Resonance is observed to occur at two successive lengths of the air. If the frequency of the tuning fork is 320 H z, the velocity of sound in air at 27 o C is. At room temperture of 27 o C, two successive resonances are produced at 20 c m and 73 c m of column length. A resonating air column shows resonance with a turning fork of frequency 256 H z at column lengths 33.4 c m and 101.8 c m. The length of the air column in this tube can be adjusted by a variable piston. A resonance air column of length 20 cm resonates with a tuning fork of frequency 250 Hz. ![]() Can you explain this answer? tests, examples and also practice Physics tests. A tuning fork of frequency 480 Hz is used in an experiment for measuring speed of sound ( v) in air by resonance tube method. A tuning fork is used to produce resonance in a glass tube. Can you explain this answer? theory, EduRev gives you anĪmple number of questions to practice If the frequency of a tuning fork is 400 Hz and the velocity of sound in air is 320 m/s, find how far does the sound travel (in m) while the fork completes 30 vibrations?Correct answer is '24'. Can you explain this answer? has been provided alongside types of If the frequency of a tuning fork is 400 Hz and the velocity of sound in air is 320 m/s, find how far does the sound travel (in m) while the fork completes 30 vibrations?Correct answer is '24'. The wire will vibrate with a frequency of (A) 240 Hz (B) 480 Hz (C) 720 Hz (D) will not vibrate. A tuning fork of frequency 480Hz is used to vibrate a sonometer wire having natural frequency 240Hz. When this length is changed to 0.35 m, the same. Click hereto get an answer to your question O2 211 20. asked in Physics by Chithrajain (84.5k points) class-12 stationary-waves 0 votes. frequency of third harmonic of the closed pipe is found to be higher by 100Hz. Can you explain this answer?, a detailed solution for If the frequency of a tuning fork is 400 Hz and the velocity of sound in air is 320 m/s, find how far does the sound travel (in m) while the fork completes 30 vibrations?Correct answer is '24'. The fundamental frequency of a closed pipe, if its first overtone is unison with a tuning fork of 480Hz is. BL OL AL Tuning forks and pipes may be used to demonstrate the concept of resonance. If the frequency of a tuning fork is 400 Hz and the velocity of sound in air is 320 m/s, find how far does the sound travel (in m) while the fork completes 30 vibrations?Correct answer is '24'. Given:- Frequency of tuning fork 400 Hz- Velocity of sound in air 320 m/s- Number of vibrations completed by the fork 30To find:- Distance traveled by the soundFormula:The formula for calculating the distance traveled by sound is given by:Distance Velocity × TimeCalculation:1. ![]() The wire will vibrate with a frequency of. A tuning fork of frequency 480Hz is used to vibrate a sonometer wore having natural frequency 240 Hz. Can you explain this answer? defined & explained in the simplest way possible. Get all the study material in Hindi medium and English medium for IIT JEE and NEET preparation. \lambda = 4\left( m/s$.Here you can find the meaning of If the frequency of a tuning fork is 400 Hz and the velocity of sound in air is 320 m/s, find how far does the sound travel (in m) while the fork completes 30 vibrations?Correct answer is '24'. The resonance is occurring in the fundamental mode of vibration and the relation for wavelength in terms of the dimensions of the tube in fundamental mode is given as It is given that this fork resonates with a tube closed at one end. We are given a tuning fork which is vibrating at the frequency given as You can choose the listed 480Hz Note B tuning fork, or order the complete set of eight, which comes with a rubber hammer and a soft protective case for easy storage. In the fundamental mode of vibration, the wavelength of the sound is related to the length and the diameter of the tube by the following relation: ![]() The relation between the velocity, the frequency and the wavelength of sound waves is given as We have the value of frequency and the wavelength can be calculated from the fact that the resonance is taking place in the fundamental mode of vibration for which the wavelength is related to the dimensions of the tube. Hint: The velocity of a sound wave is equal to the product of the frequency of the sound and the wavelength of the sound.
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