# 10 Examples of Mechanical Energy in Everyday Life Mechanical energy can be termed as the energy of movement; as it is found in objects that are moving or have the potential to move. In physical science, it is the sum of potential energy and kinetic energy. The formula for mechanical energy is;

Mechanical energy = kinetic energy + Potential energy

### Law of Conservation of Mechanical Energy

It says that the mechanical energy of an object in a closed system remains constant if it is not under the influence of any dissipative force (for example friction, air resistance), except for the gravitational force.

Let us try to understand the concept of mechanical energy more plainly by taking a few examples from everyday life.

### 1. Wrecking Ball A wrecking ball is a large round structure that is used for the demolition of buildings. When the ball is held at a height, it contains some amount of potential energy (stored energy) and as soon as it falls, it gains some amount of kinetic energy too. When the wrecking ball hits the building to be demolished, it applies the force (in the form of mechanical energy), which causes the work to be done, as in this case, the demolition of buildings.

### 2. Hammer Whenever we use a hammer to, let’s say, hit a nail and drive it into the wall, we are simply applying some force on the nail with the help of the hammer which is causing some work to be done. At rest, a hammer does not contain any kinetic energy but only some amount of potential energy. When we swing a hammer up to some distance from the nail before hitting it, kinetic energy comes into play, and the combination of kinetic energy and potential energy in the hammer, called mechanical energy, will cause the driving of the nail into the wall. Or, we can say that the force applied by the hammer to do work on the nail is mechanical energy, which is the sum of potential and kinetic energy.

### 3. Dart Gun A dart gun is another example of mechanical energy observed in everyday life. A dart gun works on the principle of elastic potential energy. The spring used in the dart guns consists of stored elastic potential energy. When a dart gun is loaded, it causes the spring to compress. At that moment, the dart gun consists of elastic potential energy. Due to this energy, the spring is able to apply force on the dart and does work, i.e., displacement of the dart.

### 4. Wind Mill Windmills are the structures that convert wind energy into electrical energy and this energy is then supplied to our homes. But from where does this energy in the wind comes and moves the large blades of a windmill? Windmills run on the principle of mechanical energy and work. Moving air (wind) possesses some amount of energy in the form of kinetic energy (due to motion). This energy gives the air the ability to do work on the blades of the fan. The moving air applies force on the blades and enables the work to be done, hence, resulting in their rotation. Therefore, the mechanical energy gave wind the ability to do work on the blades of the fan.

### 5. Bowling Ball This interesting target sport illustrates another good example of mechanical energy and the work done by the object possessing it. The bowling ball consists of some amount of energy in the form of kinetic energy as soon as it starts rolling towards the target. Due to this energy, the ball has the ability to do work on the pins. When the ball hits those target pins, it (ball) applies force (in the form of mechanical energy) and displaces them, hence, causing work to be done. Therefore, here also, we can say that mechanical energy gave the bowling ball the ability to do work on the pins that caused their displacement.

### 6. Hydropower Plant In hydropower plants, electricity is generated with the help of running water. The hydropower plants display an excellent example of the use of mechanical energy to do work. In a hydropower plant, we often get to see the view of water running down the slope at an enormous speed. The running water is thrown from a great height just to gain a good amount of energy that is present in the form of gravitational potential energy (due to height) and kinetic energy (due to motion). The water falling down the slope then hits the blades of the turbines, which are installed at the bottom of the waterfall. The mechanical energy of the water enables it to do work on the blades; resulting in their rotation. Once the blades move, the turbine converts the mechanical energy of the water into electrical energy. Hence, mechanical energy gives water the ability to do work on the blades of the turbine.

### 7. Cycling A person riding a bicycle possesses some amount of energy in the form of chemical potential energy. This energy is utilized by the cyclist to do work on the paddles of the bicycle by applying some force and enabling the bicycle to move forward.

### 8. Moon Moon is earth’s only natural satellite and it revolves around the earth just like earth and the other seven planets revolve around the sun. Moon possesses potential energy due to its position with respect to earth as well as kinetic energy, since it orbits around the earth. Therefore, we can say that the moon exhibits high mechanical energy in the form of potential energy and kinetic energy due to its position and motion, respectively. The mechanical energy of the Earth-Moon system remains constant due to the law of conservation of mechanical energy. As explained earlier, this law says that the mechanical energy of a closed system remains constant if there is no external force applied to it, except for the gravitational force. Since there is no friction or air resistance in space, therefore, the mechanical energy of the Earth-Moon system remains constant with the rhythmic interchange between kinetic and potential energy at different times of the month.

### 9. Electric Motor Electric motors are present in most of the household gadgets like vacuum cleaners, blenders, washing machines, fans, air conditioners, etc. Electric motors convert electrical energy into mechanical energy. For example, when we switch on the fan, the electric motor starts converting the electrical energy into mechanical energy. The mechanical energy then gives the fan blades the ability to do work and hence, they start rotating. Therefore, we can say that the mechanical energy, converted by the electric motor, was responsible for work done on the blades.

### 10. Bow & Arrow A bow and an arrow is another day-to-day example of mechanical energy. When an arrow is drawn, it possesses energy in the form of elastic potential energy and when it is released, the bow renders kinetic energy, due to pulling, to the arrow that propels it towards the target. Both these energies, when combined, give the arrow the mechanical energy to move and hit the target. Hence, the mechanical energy of the arrow did the work on the target by changing its state.

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