Deriving the solution of the 1D wave equation involves: a. Equations for the vertical and horizontal displacement of a a small element of a string. - b. Equations for the horizontal and vertical forces on a small element of a displaced string. c. Equations for the difference in tensions at the ends of a small element of a displaced string and Newton's law of motion. d. Equations for the differences in forces and velocities at the ends of a small element of a displaced string.

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Deriving the solution of the 1D wave equation involves:
a. Equations for the vertical and horizontal displacement
of a a small element of a string. -
b.
c.
Equations for the horizontal and vertical forces on a
small element of a displaced string.
Equations for the difference in tensions at the ends of a
small element of a displaced string and Newton's law of
motion.
d. Equations for the differences in forces and velocities at
the ends of a small element of a displaced string.
Transcribed Image Text:Deriving the solution of the 1D wave equation involves: a. Equations for the vertical and horizontal displacement of a a small element of a string. - b. c. Equations for the horizontal and vertical forces on a small element of a displaced string. Equations for the difference in tensions at the ends of a small element of a displaced string and Newton's law of motion. d. Equations for the differences in forces and velocities at the ends of a small element of a displaced string.
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