The figure here shows an overhead view of three horizontal forces acting on a cargo canister that was initially stationary but that now move?

The figure here shows an overhead view of three horizontal forces acting on a cargo canister that was initially stationary but that now moves across a frictionless floor. The force magnitudes are F1 = 2.70 N, F2 = 3.80 N, and F3 = 10.0 N, and the indicated angles are θ2 = 51.0 ˚ and θ3 = 32.0 ˚. What is the net work done on the canister by the three forces during the first 4.10 m of displacement?

?2020-04-14T12:49:49Z

Favorite Answer

First, I'd convert all three angles to "standard" -- measured ccw from the +x axis:
Θ1 = 180º
Θ2 = 219º
Θ3 = 32º

So the net force has components
Fx = (2.70*cos180º + 3.80*cos219º + 10.0*cos32º) N
Fx = 2.827 N

and
Fy = (2.70*sin180º + 3.80*sin219º + 10.0*sin32º) N
Fy = 2.908 N

F = √(Fx² + Fy²) = 4.06 N

and so
work = F*d = 4.06N * 4.10m = 16.6 J

10

Trending Questions

Could an island like Guam really tip over if it had too many people on it ?6 answersDid the SPCA ever go looking for this Shrodinger cat?9 answersWhat is this new cat in the box theory about?5 answersIs it possible to make an artificial black hole and use it to generate electricity?5 answersThree confused sleigh dogs are trying to pull a sled across the Alaska snow. One dog pulls east with a Force of 35N. ?5 answers