Real Life Applications of Center of Gravity

Center of gravity (CG) of an object is helpful in balancing the object in real life. Center of Gravity is the point at which all the weight of the object is concentrated. It is the point at which the object would balance perfectly if it were suspended. In this article, we will learn about different real life applications of Center of Gravity.

Center of Gravity in Real Life

Center of gravity of an object is the point at which the sum of the moments of all the particles in the object about any axis is zero. In other words, it is the point at which the object would balance perfectly if it were suspended from that point.

For example, the CG of a uniform rod is at the midpoint of the rod. The CG of a triangle is at the point where the medians intersect. The CG of a sphere is at the center of the sphere. The various real life applications of center of gravity is discussed below:

Stability

Center of Gravity represents the point around which the mass of an object is balanced. When an object is disturbed from its equilibrium position, gravity exerts a torque that tends to rotate the object back to its stable position. The closer the Center of Gravity is to the base of support or within the stability limits, the more stable the object is.

Balancing on Tightrope Walking

The tightrope walker aims to keep their Center of Gravity directly above the rope to maintain balance. Placing the Center of Gravity directly over the rope ensures that the gravitational force acting on the body is aligned with the support surface, minimizing the tendency to tip over.

As the walker moves along the tightrope, they continuously adjust their body position to keep the Center of Gravity centered over the rope.

Engineering

The CG of a structure is important for its design. The structure must be designed so that its CG is in the correct position to withstand the forces that will be acting on it.

The center of gravity of a car is located near the center of the car. This helps to keep the car stable and prevents it from rolling over.

The center of gravity of a bridge is located near the center of the bridge. This helps to keep the bridge stable and prevents it from collapsing.

Balancing a Bicycle

When riding a bicycle, the rider’s Center of Gravity should be positioned over the bike’s centerline to maintain stability. Placing the Center of Gravity directly above the bike’s wheels ensures that the gravitational force acting on the rider is balanced by the contact forces between the tires and the ground, preventing the bike from tipping over.

Walking

The Center of Gravity is located near the body’s centerline, typically around the abdomen or pelvis. During walking, the body’s Center of Gravity moves in a coordinated manner with each step to ensure stability. By positioning the Center of Gravity over the base of support (feet), walkers can maintain balance and prevent falls.

Flying an Airplane

The center of gravity of an airplane is located near the wings. This helps to keep the airplane stable and prevents it from stalling. The center of gravity determines the longitudinal stability of the aircraft. The center of gravity should be located within a specified range along the longitudinal axis to ensure that the aircraft is longitudinally stable. If the center of gravity is too far forward, the aircraft may become unstable and tend to pitch down. If it’s too far aft, the aircraft may become unstable

Playing golf

The center of gravity of the golfer’s body is essential for maintaining balance and stability throughout the swing. Proper positioning of the center of gravity helps golfers maintain control over their body movements and execute a smooth, consistent swing.

During the golf swing, golfers shift their weight from the back foot to the front foot to generate power and control the trajectory of the ball. The movement of the center of gravity influences the timing and effectiveness of this weight shift.

Also, Check

Difference between Center of Mass and Center of Gravity

Frequently Asked Questions of Center of Gravity

What is the difference between center of gravity and center of mass?

The center of gravity and the center of mass are the same point for a uniform object. However, for a non-uniform object, the center of gravity is the point at which the object would balance perfectly, while the center of mass is the point at which the object’s mass is concentrated.

How can I find the center of gravity of an object?

There are a number of ways to find the center of gravity of an object. One method is to suspend the object from two different points and find the point at which it balances. Another method is to use a plumb line to find the point at which the object’s weight is evenly distributed.

What happens if the center of gravity of an object is not in the correct position?

If the center of gravity of an object is not in the correct position, the object will be unstable and more likely to tip over.

How is the center of gravity used in engineering?

The center of gravity is used in engineering to design structures that are stable and resistant to collapse.

How is the center of gravity used in sports?

The center of gravity is used in sports to improve balance and performance. For example, a golfer can use the center of gravity to improve their swing.

How is the center of gravity used in everyday life?

The center of gravity is used in everyday life in a variety of ways, such as balancing a bicycle, walking, and throwing a ball.

What are some interesting facts about the center of gravity?

• The center of gravity of the human body is located just below the navel.
• The center of gravity of a ball is located at its center.
• The center of gravity of a car is located near the center of the car.
• The center of gravity of a bridge is located near the center of the bridge.
• The center of gravity of an airplane is located near the wings.