9. The figure below shows two masses hanging from a steel wire of diameter 1.4 mm. The mass of the wire between points 1 & 2 is 46.0 g. A wave pulse travels the length of the wire (3.3 m) from point 1 to point 2 in 35 ms. Assuming both signs have equal masses, what is that mass? Both tethers on the sides have an angle of 35.5°.

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9.
The figure below shows two masses hanging from a steel wire of diameter 1.4 mm. The mass of the wire between
points 1 & 2 is 46.0 g. A wave pulse travels the length of the wire (3.3 m) from point 1 to point 2 in 35 ms. Assuming both
signs have equal masses, what is that mass? Both tethers on the sides have an angle of 35.5°.
Transcribed Image Text:9. The figure below shows two masses hanging from a steel wire of diameter 1.4 mm. The mass of the wire between points 1 & 2 is 46.0 g. A wave pulse travels the length of the wire (3.3 m) from point 1 to point 2 in 35 ms. Assuming both signs have equal masses, what is that mass? Both tethers on the sides have an angle of 35.5°.
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