Civil Engineering (CE) Exam > Civil Engineering (CE) Notes > Engineering Mechanics > Centroid for System of Particles
Centroid for System of Particles | Engineering Mechanics - Civil Engineering (CE) PDF Download
Centroid: point defines the geometric center
If the material composing a body is uniform or homogeneous, the density or specific weight will be constant throughout the body, then the centroid is the same as the center of gravity or center of mass
Geometric Properties of Line and Area Elements
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Find Centroid of area?
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Centroids: Using Single Integration
1) DRAW a differential element on the graph.
2) Label the centroid 
of the differential element.
3) Label the point where the element intersects the curve (x, y)
4) Write down the appropriate general equation to use.
5) Express each term in the general equation using the coordinates describing the curve or function.
6) Determine the limits of integration
7) Integrate
Centroids: Using Single Integration
1) DRAW a differential element on the graph.
2) Label the centroid 
of the differential element.
3) Label the point where the element intersects the curve (x, y)
4) Write down the appropriate general equation to use.
5) Express each term in the general equation using the coordinates describing the curve or function.
6) Determine the limits of integration
7) Integrate
Determine the center of gravity of a thin homogeneous wire
| segment | L (mm) |  |  |  |  |
| AB | 600 | 300 | 0 | 18x104 | |
| BC | 650 | 300 | 125 | 19.5x104 | 8.125x104 |
| CA | 250 | 0 | 125 | 0 | 3.125x104 |
| 1500 | 37.5x104 | 11.25x104 |
Locate the centroid 
of the uniform wire bent in the shape shown.
 | The given composite line can be divided intofollowing three parts having simpler shapes:
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| Segment | L (mm) |  |  |  |  |
| 1 | 150 | 0 | 75 | 0 | 11250 |
| 2 | 100 | 50 | 150 | 5000 | 15000 |
| 3 | 50 | 75 | 130 | 3750 | 6500 |
| 4 | 130 | 50 | 65 | 6500 | 8450 |
| 5 | 50 | 25 | 0 | 1250 | 0 |
| Σ | 480 | 16500 | 41200 |
Locate the distanceyto the centroid of the member’scross-sectional area.
 |  |
| Particle # | A (in2) |  |  |
| 1 | 7.5 | 4.75 | 35.625 |
| 2 | 1.875 | 1.5 | 2.8125 |
| 3 | 1.875 | 1.5 | 2.8125 |
| 4 | 6 | 0.5 | 3.0 |
| Σ | ΣA = 17.25 |  = 44.25 |
The given composite line can be divided into following three parts having simpler shapes:
| Segment | L (mm) |  |  |  |  |  |  |
| 1 | π(60)=188.5 | 60 | -38.2 | 0 | 11310 | -7200 | 0 |
| 2 | 40 | 0 | 20 | 0 | 0 | 800 | 0 |
| 3 | 20 | 0 | 40 | -10 | 0 | 800 | 200 |
| Σ | ΣL= 248.5 | ΣxL=11310 | ΣyL= -5600 | ΣzL= -200 |
Locate the centroid of the plate area shown in Fig
| Segment | A (m2) |  |  |  |  |
| 1 | 0.5 * 3 * 3 = 4.5 | 1 | 1 | 4.5 | 4.5 |
| 2 | 3 * 3 = 9 | -1.5 | -13.5 | 13.5 | 13.5 |
| 3 | −2 * 1 = −2 | -2.5 | 2 | 5 | -4 |
| Σ | ΣA = 11.5 |  |  |
| Segment | A (cm2) |  |  |  |  |
| S.circle | π/2*22=6.28 | 2 | 6.85 | 12.56 | 43.02 |
| Rectangle | 6*4=24 | 2 | 3 | 48 | 72 |
| Triangle | 1/2*3*6=9 | -1 | 2 | -9 | 18 |
| Q. circle | -π/4*22 = −3.14 | 3.15 | 0.85 | -9.89 | 2.67 |
| Σ | 36.14 | 41.67 | 130.35 |
Find: The centroid of the part
Solution: 1. This body can be divided into the following pieces:
rectangle (a) + triangle (b) + quarter circular (c) – semicircular area (d). (Note the negative sign on the hole!)
Steps 2 & 3: Make up and fill the table using parts a, b, c, and d.
| Segment | A (m2) |  |  |  |  |
| Rectangle | 18 | 3 | 1.5 | 54 | 27 |
| Triangle | 4.5 | 7 | 1 | 31.5 | 4.5 |
| Q. Circle | 9π⁄4 | −4 * 3⁄3π | 4 * 3⁄3π | -9 | 9 |
| Semi-Circle | −π⁄2 | 0 | −4 * 1⁄3π | 0 | -2/3 |
| Σ | 28.0 |  |  |
For the plane area shown, determine the first moments with respect to the x and y axes and the location of the centroid.
Solution:
Divide the area into a triangle, rectangle, and semicircle with a circular cutout. Calculate the first moments of each area with respect to the axes. Find the total area and first moments of the triangle, rectangle, and semicircle. Subtract the area and first moment of the circular cutout. Compute the coordinates of the area centroid by dividing the first moments by the total area.
| Segment | A, mm2 |  |  |  |  |
| Rectangle | 120 * 80 = 9.6 * 103 | 60 | 40 | 576 * 103 | 384 * 103 |
| Triangle | 1/2*120 * 60 = 3.6 * 103 | 40 | -20 | 144 × 103 | −72 × 103 |
| Semicircle | 1/2 *π * 602 = 5.655 * 103 | 60 | 105.46 | 339.3 × 103 | 596.4 × 103 |
| Circle | −π * 402 = −5.027* 103 | 60 | 80 | −301.6* 103 | −402.2 * 103 |
| Σ | ∑A= 13.828 * 103 |  |  |
| Segment | A (mm2) |  |  |  |  |
| 1 | 20*60=1200 | 10 | 30 | 12,000 | 36,000 |
| 2 | 1/2* 30 * 36 = 540 | 30 | 36 | 16,200 | 19,440 |
| Σ | 1740 | 28,200 | 55,440 |
The document Centroid for System of Particles | Engineering Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Engineering Mechanics.
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FAQs on Centroid for System of Particles - Engineering Mechanics - Civil Engineering (CE)
| 1. What is the concept of the centroid for a system of particles? |  |
Ans. The centroid for a system of particles is the point that represents the average position of all the particles in that system. It can be thought of as the center of mass or balance point of the system.
| 2. How is the centroid of a system of particles calculated? | |
Ans. The centroid of a system of particles can be calculated by finding the weighted average of the positions of all the particles. Each particle's position is multiplied by its mass (or weight) and then divided by the total mass (or total weight) of the system.
| 3. What are the applications of finding the centroid in real-life situations? | |
Ans. The concept of the centroid is widely used in various fields. For example, in engineering and architecture, it helps determine the stability and balance of structures. In physics and mechanics, it is used to analyze the motion and rotational behavior of objects. Additionally, it is also used in statistics and data analysis to find the average or central tendency of a dataset.
| 4. How does the location of the centroid affect the stability of a system? | |
Ans. The location of the centroid plays a crucial role in determining the stability of a system. If the centroid is located within the base of support of the system, it contributes to the system's stability. On the other hand, if the centroid is located outside the base of support, it can lead to instability and potential tipping or toppling of the system.
| 5. Can the centroid of a system of particles be located outside the physical boundaries of the system? | |
Ans. Yes, it is possible for the centroid of a system of particles to be located outside the physical boundaries of the system. This occurs when the distribution of particles within the system is uneven or asymmetrical. In such cases, the centroid may lie outside the actual shape or region occupied by the particles.
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