Video Problem As shown below, on Ganymede a 13 kg beam of length L is leaning against a frictionless wall and is in static equilibrium. The center of mass of the beam is located 0.2L from the lower end of the beam. 0.2 L Determine the force the beam exerts on the wall and the minimum coefficient of static friction between the floor and the beam. force beam exerts on wall =

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Planetary body
Callisto
(moon of Jupiter)
Ceres
(largest asteroid in
asteroid belt)
Europa
(moon of Jupiter)
Ganymede
(largest moon of Jupiter)
Io
(moon of Jupiter)
Mars
Pluto
Titan
(largest moon of Saturn)
Triton
(largest moon of Neptune)
Venus
Ⓒ Video
Mercury
Moon
Problem
Free fall
acceleration on
surface
(m/s²)
1.24
0.28
0.2 L
1.31
1.43
1.8
3.72
3.7
1.6
0.62
1.35.
0.78
8.87
As shown below, on Ganymede a 13 kg beam of length L is leaning against a frictionless wall and is in static equilibrium. The center of
mass of the beam is located 0.2L from the lower end of the beam.
Determine the force the beam exerts on the wall and the minimum
coefficient of static friction between the floor and the beam.
force beam exerts on wall =
Hs, min
Transcribed Image Text:Planetary body Callisto (moon of Jupiter) Ceres (largest asteroid in asteroid belt) Europa (moon of Jupiter) Ganymede (largest moon of Jupiter) Io (moon of Jupiter) Mars Pluto Titan (largest moon of Saturn) Triton (largest moon of Neptune) Venus Ⓒ Video Mercury Moon Problem Free fall acceleration on surface (m/s²) 1.24 0.28 0.2 L 1.31 1.43 1.8 3.72 3.7 1.6 0.62 1.35. 0.78 8.87 As shown below, on Ganymede a 13 kg beam of length L is leaning against a frictionless wall and is in static equilibrium. The center of mass of the beam is located 0.2L from the lower end of the beam. Determine the force the beam exerts on the wall and the minimum coefficient of static friction between the floor and the beam. force beam exerts on wall = Hs, min
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