What is the Difference Between Centroid and Centre of Gravity?
🆚 Go to Comparative Table 🆚The centroid and center of gravity are related concepts, but they differ in terms of their definitions and the factors they depend on. Here are the main differences between the two:
- Definition: The centroid is the geometric center of a uniform density object, meaning the object has its weight distributed equally across all body parts. The center of gravity, on the other hand, is the point where gravity acts on the body. It is the point where the total weight of the body is concentrated.
- Uniformity of Mass Distribution: The centroid is applicable to objects with uniform density, where the density is the same throughout the object. The center of gravity is a broader term that encompasses both symmetrical and asymmetrical objects, regardless of the uniformity of mass distribution.
- Calculation: The centroid can be calculated using the plumb line method or by taking the mean of the median. The center of gravity can be calculated by the equation W=S x dw.
- Equivalence: If an object has a uniform density (i.e., it is homogeneous), the center of gravity is equivalent to the centroid. However, for objects with non-uniform mass distribution, the center of gravity and centroid are different points in the body.
In summary, the centroid is the geometric center of a uniformly dense object, while the center of gravity is the point where gravity acts on the body. The two concepts are the same for objects with uniform density, but they differ for objects with non-uniform mass distribution.
On this pageWhat is the Difference Between Centroid and Centre of Gravity? Comparative Table: Centroid vs Centre of Gravity
Comparative Table: Centroid vs Centre of Gravity
Here is a table highlighting the differences between the centroid and the center of gravity:
| Feature | Centroid | Centre of Gravity |
|---|---|---|
| Definition | The centroid is a point in a plane area such that the moment of area about any axis through that point is 0. | The center of gravity is the point where the total weight of the body focuses upon. |
| Location | It is the geometric center of a uniform density object. | It is the point where gravity acts on the body. |
| Symbol | Denoted by c. | Denoted by g. |
| Dependence | It does not depend on the distribution of mass or density. | It depends on the distribution of mass or density. |
| Calculation | Calculated using the plumb line method or by taking the mean of the median. | Can be calculated by the equation W=S x dw. |
| Application | Used in engineering and physics to analyze the geometric properties of objects. | Used to analyze the physical behavior of objects, such as the balance and support of structures. |
Read more:
- Center of Gravity vs Center of Mass
- Circumcenter, Incenter, Orthocenter vs Centroid
- Gravitational Force vs Centripetal Force
- Gravity vs Weight
- Centripetal vs Centrifugal Acceleration
- Center vs Centre
- Gravitational Mass vs Inertial Mass
- Centripetal vs Centrifugal Force
- Angular Acceleration vs Centripetal Acceleration
- Gravity vs Gravitation
- Tangential Acceleration vs Centripetal Acceleration
- Gravity vs Gravitational Force
- Celsius vs Centigrade
- Heliocentric vs Geocentric
- Density vs Weight
- Centriole vs Centrosome
- Gravity vs Magnetism
- Inertia vs Mass
- Mass vs Weight