a) Find the Position "x" on the Rod where the ball is hanging b) Find the Force exerted by the Hinge (Point A) on the Rod After experimenting the bar showed to have a non uniform density that varies as P(x)=C(1+0.1x³) in the interval 0Sx<2 c) Find the Constant C for the 4kg Bar. x dm M d) Find the position of the corrected center of mass for the Bar.

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1. A uniform bar has a small ball hanging at a distance x. The bar is 2.00 m long and has
mass 4.00 kg, while the ball has a 3.00 kg mass. The Tension in the string is 100 N
37.0
Ar
a) Find the Position “x" on the Rod where the ball is hanging
b) Find the Force exerted by the Hinge (Point A) on the Rod
After experimenting the bar showed to have a non uniform density that varies as
P(x)=C(1+0.1x²) in the interval 0<x<2
c) Find the Constant C for the 4kg Bar.
1
Xan =
M
d) Find the position of the corrected center of mass for the Bar.
Transcribed Image Text:1. A uniform bar has a small ball hanging at a distance x. The bar is 2.00 m long and has mass 4.00 kg, while the ball has a 3.00 kg mass. The Tension in the string is 100 N 37.0 Ar a) Find the Position “x" on the Rod where the ball is hanging b) Find the Force exerted by the Hinge (Point A) on the Rod After experimenting the bar showed to have a non uniform density that varies as P(x)=C(1+0.1x²) in the interval 0<x<2 c) Find the Constant C for the 4kg Bar. 1 Xan = M d) Find the position of the corrected center of mass for the Bar.
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