Why do we keep frequency constant instead of keeping vibrating length constant to verify second law of vibrating string?
Answers
Explanation:
beacuse in actual vibration length varies but frequency remains the same
hope it helps
Velocity of a transverse wave travelling in stretched string is given by:
where T is the tension in the string and μ is the mass per unit length.
where T is the tension in the string and μ is the mass per unit length. Now, the fundamental frequency of the stretched string is given by:
From the above expression, there are three laws of transverse vibration of string.
From the above expression, there are three laws of transverse vibration of string. Law of length: The fundamental frequency is directly proportional to the resonating length (L) of the string.
Law of Tension: The fundamental frequency is directly proportional to the square root of the tension.
Law of Mass: The fundamental frequency is inversely proportional to the square root of the mass per unit length.
We can verify the three laws of vibration as follows:
We can verify the three laws of vibration as follows:Law of length (f ∝ 1/L): When we take different tuning forks of different frequencies, and measure the resonating length for each of them keeping tension applied and the material of the wire as constant. The product of frequency and resonating length of one tuning fork was found equal to the frequency and resonating length of another tuning fork. This verifies the law of length.
Law of tension (f ∝ √T): The resonance of different tuning forks of different frequencies was observed by varying tension keeping resonating length and wire as constant. When a graph for f vs √T is plotted, a straight line is obtained. This verifies the law of tension.
Law of tension (f ∝ √T): The resonance of different tuning forks of different frequencies was observed by varying tension keeping resonating length and wire as constant. When a graph for f vs √T is plotted, a straight line is obtained. This verifies the law of tension. Laws of mass (f ∝ 1/√μ): The resonance is observed by taking different tuning forks of different frequencies and different wires with separate mass per unit length (μ) keeping resonating length and tension applied as constant. When the graph for f vs 1√μ is plotted and the graph is found to be a straight line. So, law of mass is verified.
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