![SOLVED: The vibrating string has the total energy E(t) at time E(t) = ∫(uvzz,t) + ∫(T1g6,4)) Explain why the first term is the kinetic energy and the second term is the potential SOLVED: The vibrating string has the total energy E(t) at time E(t) = ∫(uvzz,t) + ∫(T1g6,4)) Explain why the first term is the kinetic energy and the second term is the potential](https://cdn.numerade.com/ask_images/618106400d974ded899d8e307e7f3f67.jpg)
SOLVED: The vibrating string has the total energy E(t) at time E(t) = ∫(uvzz,t) + ∫(T1g6,4)) Explain why the first term is the kinetic energy and the second term is the potential
![A 2 m string is fixed one end and is vibrating in its third harmonic with amplitude 3 cm and frequency 100 Hz.Find the maximum kinetic energy of the string by integrating A 2 m string is fixed one end and is vibrating in its third harmonic with amplitude 3 cm and frequency 100 Hz.Find the maximum kinetic energy of the string by integrating](https://search-static.byjusweb.com/question-images/toppr_invalid/questions/1694320_1745269_ans_ad756de5f08041108379c879bf04c970.jpg)
A 2 m string is fixed one end and is vibrating in its third harmonic with amplitude 3 cm and frequency 100 Hz.Find the maximum kinetic energy of the string by integrating
![The Energy of A Vibrating String in Foundation of Physics ll | PHYS 351 | Study notes Physics | Docsity The Energy of A Vibrating String in Foundation of Physics ll | PHYS 351 | Study notes Physics | Docsity](https://static.docsity.com/documents_first_pages/2009/07/24/4f3bf18d1897ee821aa220e6db2e0282.png)