Conversion of Energy in Daily Life – Formulas, Examples

The conversion of energy ideas can help us in answering a few major questions. Is the world’s power supply running out? A picture with a small round mark line around the Earth and using CBA shows that the quantity of power here on Earth is either constant or slightly growing. It depends on whether you believe that global warming is taking place. So, no, the World is not running out of power, even though useful primary power sources may be reducing.

Where does the power start from that lets you read these words in the light? This gets to the heart of the matter when people Claim that we are in the middle of a “power crisis.”

Even though the amount of power around us remains constant, we are rapidly making great changes to stocks of easily exploitable ‘C’ power into far less of great value ‘T’ 9 power. It is likely that the light you are reading this with came from an ‘E’ light unit powered by a fossil-fuel-burning power plant. As you read these words, that light is being greatly changed from electromagnetic power to heat at room temperature. This is a kind of power that has no use other than to keep you comfortable.

Conversion of Energy

Few word signs we used in this article:

C: Chemical

T: Thermal

K: Kinetic

E: Electric

M: Mechanical

Conversion of Energy physics

We need Electrical power for watching motion pictures, taking food heated soft grain bursts open after being heated, and a variety of other activities. The greater number or part of electrical power is produced by the combustion of fossil fuels, which include ‘C’ power. When we burn fossil fuels, ‘C’ power changes into ‘T’ power. This later got changed into electrical power.

All of these are instances of power conversion. This is the transformation of one type of power into another. When power is changed in this way, It is not used or lost. After the conversion, the amount of power is the same as it was before. The law of conservation of power puts forward that power can not be made come into existence or made waste of, and this follows this rule.

‘M’ and sound power, in addition to electrical, chemical, and ‘T’ power, are further types of power. Any of these types of power can transform into another. One form of energy frequently transforms into or more separate forms.

Conversion of energy table

Scenario Energy conversions involved
Then, Rubbing both hands together for warmth Similarly, ‘K’ power to ‘T’ power
Similarly, A falling object speeding up Then, Gravitational Potential power to ‘K’ power
Then, Using battery-powered torchlight Similarly, In the battery: ‘C’ to Electrical power,

In the bulb: Electrical to Radiant power

Similarly, In Geo‘T’ Power Plant Then, Heat power to Electrical power
Then, In Thermocouple Similarly, Heat power to Electrical power
Similarly, In Hydro ‘E’ Dams Then, Gravitational potential power to ‘E’ power
Then, In ‘E’ Generator Similarly, ‘K’ power / ‘M’ work to ‘E’ power
Similarly, In Windmills Then, Wind Power to M*  power or E* power
Then, in OTEC Similarly, Heat power to ‘E’ power or ‘M’ power
Similarly, Using Microphone Then, Sound power to ‘E’ power
Then, Photosynthesis in Plants Similarly, Solar power to ‘C’ power
Similarly, In Piezoelectrics Then, Strain to ‘E’ power
Then, In the ‘E’ lamp Similarly, ‘E’ power to Heat and Light power
Similarly, the Burning of wood Then, ‘C’ power to Heat and Light power
Then, in Fuel cells Similarly, ‘C’ power to ‘E’ power
Similarly, In a steam engine Then, The heat power to ‘M’ power
Then, In ‘E’ heater Similarly, ‘E’ power to Heat

Conversion of energy from one form to another

Energy is a basic thing needed in our daily lives. So much so that the quality of living, and even survival, is dependent on the power supply. As an outcome, we need a grip of multiple power sources, this from one form to another, and the effects of these conversions. This from one form to another is an in public eye phenomenon, as you may have heard.

The only thing that happens with power, according to the Law of Conservation of power, is that it transforms from one form to another. This means that we can transform electrical power into heat and light power, solar power into ‘C’ power, potential power into ‘K’ power, and gravitational potential power into ‘K’ power, among other things.

This is described as the process of changing power from one form to another, such as changing nuclear power into heat power, light power into heat, ‘T’ power into work, and so on. It is possible to transform power from one form to another.


Name Energy
Gasoline Our cars run on gasoline (chemical), which generates ‘M’ (kinetic) power with the help of electrical power from a battery.
TV Our TVs receive purchased electricity, which is turned to light and sound.
‘E’ bulb Similarly, purchasing power is transformed to visible light and heat power in an ‘E’ bulb.

Conversion of Energy Types

There are many different types of power everywhere around us, and these power sources can be turned into many forms as detailed below:

From To Note
Light power heat power It is possible to transform light power into heat power.
Electrical power ‘M’ power, light power, heat power We can convert Electrical power to ‘M’ power, light power, heat power, etc.
‘C’ power electrical power We can convert ‘C’ power to electrical power.
‘T’ power heat power We can convert ‘T’ power to heat power.
‘M’ power electrical power, potential power We can convert ‘M’ power to electrical power, potential power, etc.
Nuclear power light power and heat power We can convert Nuclear power to light power and heat power.
Solar power heat power, ‘C’ power, and electrical power We can convert Solar power to heat power, ‘C’ power, and electrical power.
The Gravitational potential power ‘K’ power  We can convert Gravitational potential power to ‘K’ power.

Conversion of energy in photosynthesis

Photosynthesis is a ‘C’ reaction that turns CO2, water, and sunlight into glucose and oxygen using the sun’s power. They do this process to produce food and O2. The light-dependent processes and the light-independent reactions are the two stages of this process.

Plants transform sunlight into ‘C’ power by producing ATP and NADPH. Since they can’t directly utilize the power from the sun to generate glucose. ATP and NADPH are power-carrying molecules that are produced during their light-dependent processes. The ‘C’ power stored in ATP and NADPH is then utilized during the Calvin cycle, which is a light-independent step of this process.

Conversion of Energy in microphone

Microphones are a sort of transducer, which is a device that changes the shape of power. Acoustic power (sound waves) is changed into electrical power by microphones (the audio signal).

Different microphones transfer power in different ways, but they all have one thing in common: the diaphragm. When sound waves strike a thin piece of material (such as paper, plastic, or aluminum), the material vibrates. The diaphragm is positioned in the head of a conventional hand-held microphone, such as the one shown below.

When the diaphragm vibrates, it causes the microphone’s other components to vibrate as well. The audio signal is created by changing these vibrations into an electrical current.

Note that the loudspeaker, at the other end of the audio chain, is likewise a transducer, changing electrical power back into acoustic power.

Conversion of Energy in an ‘E’ cell

When a circuit is connected to an ‘E’ cell, the ‘C’ power inside the cell is transformed into electrical power, which flows through the circuit as current. Additionally, this electrical power can be turned into ‘M’ power, acoustic power, or any other form of power desired.

Conversion of Energy in loudspeaker

Electrical power is changed into sound power by the loudspeaker.

It generates a sound wave that is identical to the original voice or music signal’s pattern. Electrical power vibrates the diaphragm of a loudspeaker, which vibrates the air in direct contact with it.

Conversion of Energy in a steam engine

The steam engine is a mechanism that uses steam as a medium, or working fluid, to transform heat power into ‘M’ power. When water is transformed to steam, it expands 1,600 times its original volume. All steam engines are built on the force generated by the conversion. Superheated steam force pistons reciprocate or travel back and forth in a cylinder to power steam engines. A connecting rod connects the piston to a crankshaft, which translates the piston’s back-and-forth action into rotary motion for operating machinery.

The rotary action is smooth and stable thanks to a flywheel attached to the crankshaft. Each end of the cylinder has an inlet valve in a conventional steam engine. Steam enters the cylinder through one inlet valve, forcing the piston to move to the opposite end.

After then, the steam is expelled through an exhaust valve. The piston is subsequently pushed back to its original position by steam from the opposite inlet valve, and the cycle begins again. The exhaust steam from a single, e-cylinder steam engine is normally released directly into the atmosphere. A compounded steam engine contains numerous cylinders through which the steam goes until it condenses into water and returns to the boiler at the last cylinder.

Conversion of Energy in Electric bulb

‘E’ power is turned into light and heat power when we turn on an ‘E’ bulb. This occurs as a result of the ‘E’ current’s heating action. Due to the heating effect, the filament turns red hot and begins to emit light.

Conversion of Energy in Electric fan

Thermodynamics is the study of power and the process of its conversion from one form to another, as we all know. power cannot be generated or destroyed, according to the basic law of thermodynamics; it can only be changed from one form to another. The law of conservation of power states that when power is transferred or transformed from one form to another, the total amount of power before and after the conversion remains constant.

The power that is supposed to be derived from ‘E’ potential power or ‘K’ power is referred to as electrical power. ‘M’ power, on the other hand, is the power that an object possesses as a result of its motion or location. We know that an ‘E’ fan, as its name implies, is powered by electricity and operates on ‘M’ power, i.e. rotational motion.

‘E’ fans transform electrical power into ‘M’ power in this way.

Conversion of Energy examples in daily life

Light bulb electricity to light
Then, Fan ‘E’ to mechanical
Muscle movement ‘C’ to mechanical
Then, the Ball falling potential to kinetic
Similarly, Generator ‘M’ to electric
Then, Automobile ‘C’ to electricity
Similarly, Torchlight E to light
Then, Stove ‘C’ to Heat and Light
Similarly, Speakers electricity to Sound(a type of ‘M’ power)
Then, Electricity Bell Then, electricity to sound
Similarly, Lightning strikes a tree electricity to Heat
Then, Solar panel Light to electricity
Similarly, Microphone Sound to electricity
Then, Dams ‘K’ power (of water) to electricity
Similarly, the Atom bomb Nuclear power to heat and light
Then, Sun Nuclear power to heat and light
Similarly, Photosynthesis Light to Chemical
Then, Friction ‘K’ to Heat
Similarly, Geo‘T’ power Heat to electricity
Then, Bungee jump Gravitational potential power to elastic potential power.

Conversion and Conservation of Energy

power is frequently transferred from one form to another; nonetheless, the law of conservation of power, a fundamental physics law, maintains that while power can change the form, it cannot be created or destroyed (see conservation laws). However, the theory of relativity demonstrates that mass and power are interchangeable and that one can be changed into the other. As a result, both mass and power are included in the law of conservation of power.

Many power changes are crucial in everyday life. The conversion of ‘C’ power into heat and light occurs when fuels are burned. ‘C’ power is changed to electrical power and vice versa in an ‘E’ storage battery. Green plants transform light power from the sun into ‘C’ power during starch photosynthesis. Hydro‘E’ facilities transform the ‘K’ power of falling water into electrical power that can be easily transported to its intended location via wires (see power, electric). A nuclear explosion’s force is the outcome of the partial conversion of matter to power (see nuclear power).


What is energy transfer?

We call the movement of power from one location to another power transfer. Consider the electricity that comes from your wall outlet, travels through a charger, and finally ends up in a battery. The power from the wall socket is transferred to the battery.

What is energy transformation?

It is possible for one sort of power to transform into another. We define power transformation as the conversion of one type of power to another, such as from ‘K’ to electrical power or from potential to ‘K’ power.

What is conservation of energy?

Kinetic, potential, gravitational, and electrical power are all examples of distinct types of power.

We can transport (moved from one place to another) and transform (changed from one kind to another) power. However, nature still conserves the overall amount of power. This is what remains constant.

What are the 3 energy conversions?

We can convert Electrical power into ‘M’ power, light power, heat power, and other types of power. It is possible to transform ‘C’ power into electrical power. The conversion of ‘T’ power to heat power is possible. We can transform ‘M’ power into electrical, potential, and other forms of power.

What do you mean by conversion of energy?

This is the process of transforming power from natural sources into forms that humans can use.

How do we convert energy?

We know the process of changing one form of power into another as the conversion of power. Every minute of the day, we change the power somewhere. ‘T’ power, electrical power, nuclear power, electromagnetic power, ‘M’ power, ‘C’ power, acoustic power, and other types of power exist.

What are the 6 forms of energy?

Chemical, electrical, radiant, mechanical, thermal, and nuclear power are the six main types of power. Additional kinds, such as ‘EC’, acoustic, ‘EM’, and others, may be mentioned in other studies.

What are the 9 different types of energy?

‘T’ power, radiant power, ‘C’ power, nuclear power, electrical power, motion power, sound power, elastic power, and gravitational power are some of the numerous types of energy.