15. mmh To measure the acceleration due to gravity on a distant planet, an astronaut hangs a 0.055-kg ball from the end of a wire. The wire has a length of 0.95 m and a linear density of 1.2 × 10-ª kg/m. Using elec- tronic equipment, the astronaut measures the time for a transverse pulse to travel the length of the wire and obtains a value of 0.016 s. The mass of the wire is negligible compared to the mass of the ball. Determine the acceleration due to gravity.
15. mmh To measure the acceleration due to gravity on a distant planet, an astronaut hangs a 0.055-kg ball from the end of a wire. The wire has a length of 0.95 m and a linear density of 1.2 × 10-ª kg/m. Using elec- tronic equipment, the astronaut measures the time for a transverse pulse to travel the length of the wire and obtains a value of 0.016 s. The mass of the wire is negligible compared to the mass of the ball. Determine the acceleration due to gravity.
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Transcribed Image Text:15. mmh To measure the acceleration due to gravity on a distant planet,
an astronaut hangs a 0.055-kg ball from the end of a wire. The wire has
a length of 0.95 m and a linear density of 1.2 × 10-ª kg/m. Using elec-
tronic equipment, the astronaut measures the time for a transverse pulse
to travel the length of the wire and obtains a value of 0.016 s. The mass
of the wire is negligible compared to the mass of the ball. Determine the
acceleration due to gravity.
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