Three equal masses of m kg each are fixe...

Three equal masses of m kg each are fixed at the vertices of an equilateral triangle ABC.
(a) What is the force acting on a mass 2m placed at the centroid G of the triangle?
(b) What is the force if the mass at the vertex A is doubled?
Take AG=BG=CG=1m (see Fig.8.5)

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The individual forces in vector notation are
`F_(GA)=(G(m)(2m))/1hatj`
`F_(GB)=(G(m)(2m))/1 (-hat1 cos 30^@- hatj sin 30^@)`
`F_(GC)=(G(m)(2m))/1 (hat1 cos 30^@ -hatj sin 30^@)`
From the principle of superposition and the law of vector addition the resultant gravitational force `F_R` on(2m) is
`F_R=F_(GA)+F_(GB)+F_(GC)`
`F_R=2Gm^2hatj + 2Gm^2 (-hati cos 30^@ - hatj sin 30^@) + 2Gm^2 (hati cos 30^@ - hatj sin 30^@) =0`
(b) By symmetry, the X-component of the force cancels out. The Y-component survives.
`therefore F_R=4Gm^2 hatj - 2Gm^2 hatj =2Gm^2 hatj`

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Three equal masses of m kg each are fixed at the vertices of an equilateral triangle ABC.
(a) What is the force acting on a mass 2m placed at the centroid G of the triangle?
(b) What is the force if the mass at the vertex A is doubled?
Take AG=BG=CG=1m (see Fig.8.5)