a man pulls a 50.0 kg box with a rope parallel to the ground he pulls the box 10.0 m about how much work has he done
5000J
50000J
0.50J
2J

Your answer is 5000 J

when W(work) = F X when F= the force and X= the displacment

and F(g) = M a(g) when M= mass and a = the acceleration and in our question
, the force is the gravitational force and a= 9.8 m/S2 we can assume as 10 m/s2

and when we have M= 50 Kg
so by substitution:
F= 50 x 10 = 500 N

and by substitution in work equation: when x = 10 m
∴ W = 500 x 10 = 5000 j

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skyluke89 skyluke89 · Answer 2 · 2018-02-24T19:00:08+01:00

skyluke89 skyluke89

24-02-2018

The weight of the box is (using an approximate value [tex]g=10m/s^2[/tex]:
[tex]W=mg=50Kg\cdot10m/s^2=500 N[/tex]
Therefore, the man must apply an equal force to pull the box at a height of h=10.0m. The work he has done is equal to the product between this force and the displacement, which is the height h:
[tex]W=Fd=500N \cdot 10m=5000 J[/tex]

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a man pulls a 50.0 kg box with a rope parallel to the ground he pulls the box 10.0 m about how much work has he done 5000J 50000J 0.50J 2J

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a man pulls a 50.0 kg box with a rope parallel to the ground he pulls the box 10.0 m about how much work has he done
5000J
50000J
0.50J
2J