![SciELO - Brasil - Explicit solution of the large amplitude transverse vibrations of a flexible string under constant tension Explicit solution of the large amplitude transverse vibrations of a flexible string under SciELO - Brasil - Explicit solution of the large amplitude transverse vibrations of a flexible string under constant tension Explicit solution of the large amplitude transverse vibrations of a flexible string under](https://minio.scielo.br/documentstore/1679-7825/ZB6R5SzgNdmYTXHP5qGB9Wf/e38f39bb2cdbf34b2344291bf56fa169478d3f0e.jpg)
SciELO - Brasil - Explicit solution of the large amplitude transverse vibrations of a flexible string under constant tension Explicit solution of the large amplitude transverse vibrations of a flexible string under
![SOLVED: vibrating string subjected an external vertical force that varies with the horizontal distance from the left end. The wave equation represented by the partial differential equation (PDE) is given as 02M SOLVED: vibrating string subjected an external vertical force that varies with the horizontal distance from the left end. The wave equation represented by the partial differential equation (PDE) is given as 02M](https://cdn.numerade.com/ask_images/b7ccfacccadc40279f5017986a18d77d.jpg)
SOLVED: vibrating string subjected an external vertical force that varies with the horizontal distance from the left end. The wave equation represented by the partial differential equation (PDE) is given as 02M
![SOLVED: The movement of a vibrating string is described by the one-dimensional wave equation 0<x<L (1) where y is transversal displacement, t is time,x is axial distance, and cis a string constant: SOLVED: The movement of a vibrating string is described by the one-dimensional wave equation 0<x<L (1) where y is transversal displacement, t is time,x is axial distance, and cis a string constant:](https://cdn.numerade.com/ask_images/89dc937585ad4defb4a14a560825e926.jpg)
SOLVED: The movement of a vibrating string is described by the one-dimensional wave equation 0<x<L (1) where y is transversal displacement, t is time,x is axial distance, and cis a string constant:
![The restoring forces on a vibrating string, proportional to curvature. | Download Scientific Diagram The restoring forces on a vibrating string, proportional to curvature. | Download Scientific Diagram](https://www.researchgate.net/publication/267833123/figure/fig1/AS:284127157866496@1444752601702/The-restoring-forces-on-a-vibrating-string-proportional-to-curvature.png)