Difference between K-Means and DBScan Clustering

Difference between Center of Mass and Center of Gravity

Last Updated : 26 Apr, 2025

Physics has always captivated those eager to investigate the basic forces and concepts governing the universe. Subjects like gravity, inertia, distance, and displacement provide limitless opportunities for investigation. Science as a whole investigates diverse systems, ranging from the human body and solar system to plant and animal tissues and chemicals.

Two significant concepts that frequently emerge in physics are the centre of mass and the centre of gravity. While both terms are often used interchangeably, they have distinct meanings. The centre of gravity refers to the point where the entire weight of an object can be considered to act, balancing the force of gravity. In comparison, the centre of mass is the point at which the total mass of the object is concentrated, and it represents the average location of the object's mass distribution.

Difference between center of Mass and Center of Gravity

What is the Center of Mass?

The center of mass is defined as the point at which the mass's relative position is calculated to be zero. The mass distribution is considered uniform around the center of mass. Because the center of mass is independent of the gravitational field (g), the body remains unaffected by changes in the gravitational field's force.

The center of mass is the point where an object's mass is concentrated.
Its position doesn't change with variations in the gravitational field.
For objects with uniform density (like spheres or cubes), the center of mass is at the center.
For irregular objects, the center of mass is closer to the denser parts.
The center of mass moves as if all the mass is concentrated at that point.
If no external force acts on it, the center of mass moves in a straight line with constant speed.

What is the Center of Gravity?

The center of gravity is defined as the exact place in a body around which the instants due to gravity are regarded as zero. The center of gravity is the point at which the entire body is perfectly balanced in relation to gravity.

The center of gravity is the point where the entire weight of an object is considered to act.
It is the point where the object would balance perfectly if supported at that spot.
The center of gravity depends on the distribution of weight within the object.
For uniform objects, the center of gravity is usually at the center.
For irregular objects, the center of gravity is located closer to the heavier parts.
The center of gravity is influenced by gravity, so it changes with the object's position in different gravitational fields.

Difference Between Center of Mass and Center of Gravity

Center of Mass	Center of Gravity
The center of mass is the point where mass distribution is uniform in all directions.	The center of gravity is the point where weight is evenly distributed in all directions.
The Center of mass is based on the mass of the body.	The Center of gravity is based on the weight of the body.
It is said to be the center where the entire bodily mass is concentrated.	It is defined as the point at which the body's entire weight is suspended.
There is a uniform distribution of mass of the body.	There is a uniform distribution of the weight of the body.
When a body travels through an axis, the mass operating on the left side is equal to the mass acting on the right side.	When a body travels through an axis, the weight on the left side becomes equal to the weight on the right side.
The change in the gravitational field has no effect on it.	Changes in the force of the earth's acting gravity usually cause the object to move closer to the parts of the object in a stronger field.
When spinning around that point, it provides some angular momentum.	Because of gravity, the net torque is zero.

Applications of Center of Mass and Center of Gravity

Center Of Mass

The center of mass in the human body is around the lower abdomen, shifting with posture and body shape, aiding balance in athletes.
In a bicycle, the center of mass is at the midpoint of the frame, ensuring stability when in motion.
For aircraft design, the center of mass is carefully positioned to maintain proper balance and stability in flight.
In space, a spacecraft’s center of mass dictates its movement and rotation, helping astronauts maneuver.
When a ball is thrown, its center of mass follows a parabolic trajectory, aiding in analyzing its motion.

Center of Gravity

A ladder's balance depends on its center of gravity; a higher one may cause tipping, while lowering it improves stability.
A car's center of gravity affects handling, with higher centers (like SUVs) being more prone to tipping.
A person's center of gravity must stay above their feet to maintain balance; if shifted too far, they will fall.
A seesaw balances when the combined center of gravity aligns with the pivot point; uneven weight causes tilting.
In building design, the center of gravity ensures stability, especially in tall structures during high winds or earthquakes.
A rocket's center of gravity affects its launch stability, requiring precise alignment for controlled flight.

Solved Problems

Problem 1: Two-point masses of 3 kg and 5 kg are located at 4 m and 8 m on X-axis. Find the center of mass.

Solution:

Given,
m₁ = 3 kg
m₂= 5 kg
x₁= 4 m
x₂= 8m
Using Center of mass formula,
X_cm= m₁x₁+m₂x₂/ m₁+m₂
= (3)(4) + (5)(8)/ 3 + 5
= 6.5
So, the center of mass is 6.5 m.

Problem 2: Two-point masses of 2 kg and 5 kg are located at 10 m and -5 m on Y-axis respectively. Calculate the center of mass.

Solution:

Given,
m₁= 2 kg
m₂= 5 kg
y₁= 10 m
y₂= -5 m
Using center of mass formula,
Y_cm = m₁y₁+m₂y₂/m₁+m₂
= (2)(10)+(5)(-5)/2+5
= -5/7
So, the center of mass is -5/7 m.

Problem 3: Two-point masses of 4 kg and 6 kg are located at 2 m and 5 m on the X-axis. Calculate the center of mass.

Using the center of mass formula:
Xcm=(4)(2)+(6)(5)/ 4+6 =8+30/10= 38/10= 3.8 m
So, the center of mass is 3.8 m.

Problem 4 : A 10 kg object is placed at 3 m on the Y-axis. What is the center of gravity of this object?

For a single object, the center of gravity is the same as its position. Therefore, the center of gravity is 3 m.

Problem 5 :Two-point masses of 3 kg and 7 kg are located at 4 m and -2 m on the Y-axis. Calculate the center of mass.

Using the center of mass formula:
Xcm=(3)(4)+(7)(-2)/3+7=12-14/10= -2/10= -0.2 m
So, the center of mass is -0.2 m.

Difference between K-Means and DBScan Clustering

S

sushjathar07

Improve

Article Tags :

Similar Reads

Difference between Cost Centre and Profit Centre

Responsibility accounting is management accounting where all the company's management, budgeting, and internal accounting are held responsible. The primary objective of responsibility accounting is to hold responsible all the concerned departments of any particular function. The focus of responsibil

Difference Between Density and Specific Gravity

Density is defined as the amount of mass in a unit volume of matter. Density is an intrinsic property, as it depends on the internal packing of atoms in the given material and also on the atomic mass of the element or compound. This means that the density of the material will remain the same, irresp

Difference Between Centromere and Kinetochore

Centromere and Kinetochore are the two primary structures located in the approximate middle of chromosomes. At the time of cell division, they are extremely important for sister chromatid segregation. The primary difference between Centromere and Kinetochore is that the centromere is the region of t

Difference between Centrifugal Force and Centripetal Force

Centrifugal force and centripetal force are two important forces associated with circular motion. Centripetal force pulls objects towards the center of a circle, keeping them in orbit. Centrifugal force appears to push objects away from the center due to their rotation. In this article, we will lear

Difference between K-Means and DBScan Clustering

Clustering is a technique in unsupervised machine learning which groups data points into clusters based on the similarity of information available for the data points in the dataset. The data points belonging to the same clusters are similar to each other in some ways while the data items belonging

Difference between Virtual Machines and Containers

Virtual machines and Containers are two ways of deploying multiple, isolated services on a single platform. Virtual Machine:It runs on top of an emulating software called the hypervisor which sits between the hardware and the virtual machine. The hypervisor is the key to enabling virtualization. It

Difference Between Gravitation and Gravity

In Physics, the terms gravitation and gravity are extremely similar. In most cases, these two terms are used interchangeably. Despite the fact that these two words sound similar, there is a distinction between gravitation and gravity. Gravity is used when the gravitational field is given, it is the

Difference between K means and K medoids Clustering

Clustering is the most basic form of data grouping in data analysis as well as in machine learning; the process involves putting the given set of objects into various groups. In which the objects in any single group will be much closer to one another than the objects belonging to other groups. Facil

Difference between Mass And Volume

Mass refers to the amount of matter in an object, while volume indicates the space it occupies. While both are properties of matter, they are measured differently and have different purposes. The relationship between mass and volume depends on the density of the material. In this article, we will le

Difference between Program and Command

1. Program : Program, as name suggest, are simply set of instructions developed by programmers in programming languages that consist of compiled code and run directly from computers operating system. 2. Command : Command, as name suggests, are instruction given by user to computer to perform specifi

翻译：