General Centre of mass derivation

AI Thread Summary
The discussion focuses on deriving the center of mass for a triangle positioned symmetrically on the X-axis, with a base of length b and height H. The approach involves treating the triangle as a series of 1D bodies and using integration to find the y-coordinate of the center of gravity. Since the triangle is symmetric, the y-coordinate can be calculated using the formula for the center of gravity, factoring out the constant density. The coordinate system is set with the origin at the center of the base, simplifying the determination of the equations for the triangle's slant sides. This method leads to identifying the centroid as the center of gravity for the triangle.
shaggySS
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Hello,
It's my first question here. So I'll try to give as much as information as I know

Actually I am stuck with a problem of centre of mass derivation of a triangle with its base on the X axis and symmetric about it.
The base is b and height is H

As far as I know I have to imagine it as a couple of 1d bodies and integrate them.

Thanks
SAGNIK
 
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Since its symmetric about the X axis the y coordinate needs to be found only.
 
The y- coordinate of the center of gravity of an object with density function \delta(x,y) is
\frac{\int y \delta(x,y) dxdy}{\int \delta(x, y) dxdy}
In particular, if \delta is a constant, it can be factored out of the two integrals and cancelled- that is the "center of gravity" is just the
geometrical "centroid". Here, we can set up a coordinate system so that the origin is at the center of the base of the isosceles triangle, base
along the x- axis, height along the y-axis. The equations of the two slant sides can easily be determined.
 
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