Where is Particle B Located in Relation to the Center of Mass?

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To determine the location of particle B in relation to the center of mass, the center of mass equations for both x and y coordinates must be applied correctly. Given that particle A is at the origin with a mass of 32.2 g and particle B has a mass of 10.0 g, the center of mass coordinates are specified as (2.0 cm, 5.5 cm). The correct formulas to use are xc = (m1x1 + m2x2) / (m1 + m2) for the x-coordinate and a similar formula for the y-coordinate. The calculations need to isolate the variables for particle B's position, which has not been done correctly in previous attempts. Accurate application of these formulas will yield the correct position for particle B.
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Particle A is at the origin and has a mass of 32.2 g. Particle B has a mass of 10.0 g. Where must particle B be located if the coordinates of the center of mass are (x, y) = (2.0 cm, 5.5 cm)?


(M1 x 1)+(M2 x2) / M1+M2

I have worked this out so many times and continue to get the wrong answer. Heres what I have:


solving for Xb =
(32.2 x 0) + (10.0 x 2.0) / 32.2 + 10.0 = 2.57 cm can anyone help me, I don't know if I am setting up the equation wrong or if my calculations are just wrong but the answers keeps getting denied online.
 
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Hoi!

Where did you get this from?

(M1 x 1)+(M2 x2) / M1+M2

I'm thinking you should consider the following:

x_{c}=\frac{\sum m_{i}x_{i}}{M}

y_{c}=\frac{\sum m_{i}y_{i}}{M}
 
You took the wrong value.
We don't know xb and yb

We know centre of mass where is it. x(bar) (or) xc=2, y(bar) or yc=5.5

Use xc=(m1x1+m2x2)/(m1+m2) . You can find x2.
yc formula is similar as xc. You can find y2.
 

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