On a distant planet, an astronaut drops a steel ball from a height of 150 meters. He observes that it takes 10 seconds for the ball to reach the surface of the planet. The distance that the ball falls from the starting point is recorded with the instruments that he carries in his spaceship, with this, he generates the table shown below. Using the data provided, determine the gravitational acceleration for the planet the astronaut is on. Write the answer using two significant figures. Do not write the units.
On a distant planet, an astronaut drops a steel ball from a height of 150 meters. He observes that it takes 10 seconds for the ball to reach the surface of the planet. The distance that the ball falls from the starting point is recorded with the instruments that he carries in his spaceship, with this, he generates the table shown below. Using the data provided, determine the gravitational acceleration for the planet the astronaut is on. Write the answer using two significant figures. Do not write the units.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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On a distant planet, an astronaut drops a steel ball from a height of 150 meters. He observes that it takes 10 seconds for the ball to reach the surface of the planet. The distance that the ball falls from the starting point is recorded with the instruments that he carries in his spaceship, with this, he generates the table shown below. Using the data provided, determine the gravitational acceleration for the planet the astronaut is on. Write the answer using two significant figures. Do not write the units.
Transcribed Image Text:En un planeta lejano, un astronauta deja caer una bola de acero desde una altura de 150 metros. El observa que la bola tarda 10 segundos en alcanzar la superficie del planeta. La distancia
que cae la bola desde el punto de partida la registra con los instrumentos que lleva en su nave espacial, con esto, genera la tabla que se muestra a continuación. Con los datos provistos,
determine la aceleración gravitacional correspondiente al planeta en que se encuentra el astronauta. Escriba la respuesta usando dos cifras significativas. No escriba las unidades.
h, m
t, s
2
24
4
54
96
8.
150
10
А. 3.0
В. 2.5
С.4.9
D. 9.8
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