Transformers Explained - How transformers work
The Engineering Mindset・2 minutes read
Transformers are essential for modern living, connecting homes to power stations through alternating current. They change voltage and current, with smaller ones used for doorbells and larger ones powering homes and cities.
Insights
- Transformers play a vital role in modern society by facilitating the transmission of electricity from power stations to homes and cities through the manipulation of voltage and current.
- The distinction between step-up and step-down transformers is crucial, as it determines whether voltage is increased or decreased, impacting energy efficiency and minimizing loss during power transmission.
Get key ideas from YouTube videos. It’s free
Recent questions
What is the purpose of transformers?
Transformers are essential for modern living as they connect homes and buildings to power stations. They work with alternating current, not direct current, and are responsible for changing voltage and current, which are measured in VA or kilovolt amps.
How do transformers reduce energy loss in cables?
Transformers reduce energy loss in cables by increasing voltage, which in turn lowers the current flowing through the cables. This decrease in current helps minimize energy loss during transmission.
What are the components of a transformer?
Transformers consist of two coils of wire wound around an iron core. These coils are known as the primary and secondary coils, and they play a crucial role in the transformation of voltage and current.
What are the different types of transformers?
There are two main types of transformers: step-up transformers and step-down transformers. Step-up transformers increase voltage, while step-down transformers decrease voltage. These variations in voltage are essential for different applications in homes, buildings, and cities.
Why do transformers use volt amps instead of kilowatts?
Transformers use volt amps (VA) instead of kilowatts due to the varying loads they encounter. VA takes into account both the voltage and current, providing a more accurate measurement of the power being transferred through the transformer.
Related videos
VirtualBrain [ENG]
How a Transformer Works ⚡ What is a Transformer
Atif Ahmad Official
Transformer class 12 || Losses in transformer class 12 || 12th class physics || Eddy current losses
Dave Gordon
120/240 and 120/208 Volt Transformer Secondaries
Jeremy Fielding
Building and Reviewing Free Energy Generators on YouTube.
The Engineering Mindset
Power Inverters Explained - How do they work working principle IGBT