91Ó°ÊÓ

The mass of each particle is m

The distance between adjacent particles is 2.00.

You can find the components of the center of mass and the center of gravity using the formulae for them which are given below.

$$\begin{gathered} x_{com}=\frac{∑m_i{x}_i}{M} \\ {y}_{com}=\frac{∑m_i{y}_i}{M} \\ {x}_{cog}=\frac{∑m_i{x}_i{g}_i}{∑m_i{g}_i} \\ {y}_{cog}=\frac{∑m_i{y}_i{g}_i}{∑m_i{g}_i} \end{gathered}$$

The x component of the center of mass x_com of the six particle system is,

$$\begin{gathered} x_{com}=\frac{∑m_i{x}_i}{M} \\ =\frac{0+0+0+m\left(2\right)+m\left(2\right)+m\left(2\right)}{6m} \\ =\frac{6}{6} \\ =1.00\text{m} \end{gathered}$$

The y component of the center of mass y_com of the six particle system is,

$$\begin{gathered} y_{com}=\frac{∑m_i{y}_i}{M} \\ =\frac{0+0+m\left(2\right)+m\left(2\right)+m\left(4\right)+m\left(4\right)}{6m} \\ =2.00\text{m} \end{gathered}$$

The x component of the center of gravity x_cog of the six particle system is

$$\begin{gathered} x_{cog}=\frac{∑m_i{x}_i{g}_i}{∑m_i{g}_i} \\ =\frac{0+0+0+m\left(2\right)\left(7.4\right)+m\left(2\right)\left(7.6\right)+m\left(2\right)\left(7.8\right)}{m\left(8\right)+m\left(7.8\right)+m\left(7.6\right)+m\left(7.4\right)+m\left(7.6\right)+m\left(7.8\right)} \\ =\frac{45.6}{46.2} \\ =0.987\text{m} \end{gathered}$$

The y component of the center of gravity y_cog of the six particle system is,

$$\begin{gathered} y_{cog}=\frac{∑m_i{y}_i{g}_i}{∑m_i{g}_i} \\ =\frac{0+0+m\left(2\right)\left(7.8\right)+m\left(4\right)\left(7.6\right)+m\left(4\right)\left(7.4\right)+m\left(2\right)\left(7.6\right)}{m\left(8\right)+m\left(7.8\right)+m\left(7.6\right)+m\left(7.4\right)+m\left(7.6\right)+m\left(7.8\right)} \\ =1.97\text{m} \end{gathered}$$