PROBLEM 5.14 Arriving on a newly discovered planet, the captain of a spaceship performed the following experiment to calculate the gravitational acceleration for the planet: She placed masses of 100 g and 200 g on an Atwood device made of massless string and a frictionless pulley and measured that it took 1.5 seconds for each mass to travel 1 m from rest. 16. What is the gravitational acceleration for the planet? a. 2.867 m/s² b. 2.767 m/s² 17. What is the tension in the string? c. 2.967 m/s² d. 2.667 m/s² c. 0.366 N d. 0.376 N a. 0.356 N b. 0.346 N

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PROBLEM 5.14 Arriving on a newly discovered planet, the captain of a spaceship performed the following experiment to calculate the gravitational acceleration for the planet: She placed masses of 100 g and 200 g on an Atwood device made of massless string and a frictionless pulley and measured that it took 1.5 seconds for each mass to travel 1 m from rest. 16. What is the gravitational acceleration for the planet? c. 2.967 m/s² d. 2.667 m/s² а. 2.867 m/s² b. 2.767 m/s? 17. What is the tension in the string? c. 0.366 N d. 0.376 N a. 0.356 N b. 0.346 N

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PROBLEM 5.21 25. Determine the magnitude of W in Figure below so that the 200-lb body will have an acceleration up the plane of 4.025 ft per sec². a. 280 lb b. 340 lb 320 lb d. 300 lb С. 200 lb Hk = 0.20 30 W