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How does an Induction Motor work ? The invention of induction motors permanently altered the course of human civilization. This h...

How does an Induction Motor work ?
How does an Induction Motor work ?

The invention of induction motors permanently altered the course of human civilization. This hundred-year-old motor—invented by the great scientist Nikola Tesla—is the most common motor type, even today. 

In fact, about 50 percent of global electric power consumption is due to induction motors. Let’s get into the workings of induction motors, or more specifically, into Nikola Tesla’s genius thinking.
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The basics how inductors work working principle Inductors Explained, in this tutorial we look at how inductors work, where inductors ...

The basics how inductors work working principle
The basics how inductors work working principle
Inductors Explained, in this tutorial we look at how inductors work, where inductors are used, why inductors are used, the different types. We take an in depth look at how the circuits perform with a parallel resistive and inductive load as well as their profile with an oscilloscope.
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What is the difference between Buck converter and linear voltage regulator In this video I'm comparing in practice a buck convert...

What is the difference between Buck converter and linear voltage regulator
What is the difference between Buck converter and linear voltage regulator
In this video I'm comparing in practice a buck converter with LM7805 linear voltage regulator. Two driver boards from old hard drives are used as a dummy load to check efficiency and temperature of the buck converter and linear voltage regulator. I'm presenting pros and cons of both devices.
There are 2 mistakes in my calculations: 
1. 5:02 - 5:08 - correct calculations should be: (12V - 5V) x 0.42A = 2.94W 
2. 5:17 - 5:23 - correct calculations should be: (12V - 5V) x 0.22A = 1.54W I double checked everything, but I should have triple checked. I'm sorry for my mistake.

How to convert 230V AC to 5V DC This video helps you understand how we can convert  your mains voltage (230V AC) to 5V DC. A series ...

How to convert 230V AC to 5V DC
How to convert 230V AC to 5V DC

This video helps you understand how we can convert  your mains voltage (230V AC) to 5V DC. A series of steps have been involved like how a transformer, diodes, capacitors and voltage regulator operate collectively to produce an DC output.

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Watch this video for electronic components and their symbols  and also get idea on how to different electronic components in circuits....


Watch this video for electronic components and their symbols  and also get idea on how to different electronic components in circuits.


Useful Formulas for all Engineers I give you the most common  Useful Formulas every engineers need it in his work or life, it's wi...

Useful Formulas for all Engineers
Useful Formulas for all Engineers
I give you the most common Useful Formulas every engineers need it in his work or life, it's will help you to do all calculation easily and not need to search to find any formulas to solve your question.

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Air conditioning (often referred to as AC, A/C, or air con) is the process of removing heat and moisture from the interior...





Air conditioning (often referred to as AC, A/C, or air con) is the process of removing heat and moisture from the interior of an occupied space to improve the comfort of occupants. Air conditioning can be used in both domestic and commercial environments. 

This process is most commonly used to achieve a more comfortable interior environment, typically for humans and other animals; however, air conditioning is also used to cool and dehumidify rooms filled with heat-producing electronic devices, such as computer servers, power amplifiers, and to display and store some delicate products, such as artwork.

Air conditioners often use a fan to distribute the conditioned air to an occupied space such as a building or a car to improve thermal comfort and indoor air quality. Electric refrigerant-based AC units range from small units that can cool a small bedroom, which can be carried by a single adult, to massive units installed on the roof of office towers that can cool an entire building. 

The cooling is typically achieved through a refrigeration cycle, but sometimes evaporation or free cooling is used. Air conditioning systems can also be made based on desiccants (chemicals which remove moisture from the air). Some AC systems reject or store heat in subterranean pipes.

In construction, a complete system of heating, ventilation, and air conditioning is referred to as HVAC. In 2018 the United Nations called for the technology to be made more sustainable to mitigate climate change.

The Six Types of  Air Conditioning

  • CENTRAL AIR CONDITIONING
  • DUCTLESS, MINI-SPLIT AIR CONDITIONER
  • WINDOW AIR CONDITIONER
  • PORTABLE AIR CONDITIONER
  • HYBRID AIR CONDITIONERS
  • GEOTHERMAL HEATING & COOLING
Systems of Air Conditioning:
1. Unitary Air Conditioning System:
In this system, factory assembled air conditioners are installed in or adjacent to the space to be conditioned.

The unitary air conditioning systems are of the following two types:
(i) Window Units:
These are self-contained units of small capacity of 1 tonne to 3 tonnes, and are mounted in a window or through the wall. They are employed to condition the air of one room only. If the room is of bigger size, two or more units are installed. Now smaller units of 1 tonne, even 3/4 tonne are also available.

(ii) Vertical Packed Units:
These are also self-contained units of larger capacity of 5 to 20 tonnes and are installed adjacent to the space to be conditioned. This is very useful for conditioning the air of a restaurant, bank or small office. The unitary air conditioning system may be adopted for winter, summer or year-round air conditioning.

2. Central Air Conditioning System: 

This is most important type of air conditioning system, which is adopted, when the cooling capacity required is 25 tonnes or more. This system is also adopted when the air flow exceeds 300 m3 per minute or different zones in a building are to be air conditioned. In this type of air conditioning various essential components or units of air conditioning are situated at some central place usually in basement from where conditioned air is led through sheet metal ducts to the various rooms or space of building. 

There are return ducts for carrying air from these rooms back to the central place where it is dehumidified, cooled and recharged with fresh air. The circulation of air is achieved either naturally or by a fan. Advantages of this type of air conditioning system are high efficiency of operation and robustness of the equipment. 

The main disadvantages are absence of any adjustment of individual room temperature, necessity of costly ducting system and mixing of odours, smoke and bacteria present in the return air from infected rooms and redistributing them to healthy rooms. This type of air conditioning is best suited for big installations, factories and industrial concerns.

3. Unitary Central Air Conditioning System: 

The main disadvantage of the central system is that it needs large sized ducts which are costly and occupy large space. The ducts have to carry full volume of air (outdoor plus return) to be supplied to all the rooms. The size of ducts is, therefore, made large enough to carry the whole supply of air. Similarly for return ducts, the same remarks apply. 

To overcome this problem, unitary central system is used. In this type of air conditioning the features of both the central type and unitary type air conditioning systems have been combined in order to use it for all purposes and to make greater life expectancy. In this type of air conditioning heating and cooling equipments are installed in the central room. The various unit air conditioners in different rooms are supplied with heat energy (in the form of steam or hot water) or chilled water through the pipes. The air conditioning unit in this case comprises of heating and cooling coils, filters, blowers, dampers, valves, control and other associated equipment. 

All the disadvantages of central type are done away with. There will be no return air duct, no mixing of odours and bacterial of one room and redistribution of the same among other rooms. Temperature of each space unit can be controlled by room unit. Fresh air duct required to supply only 15% fresh air, rest of 85% air being re-circulated, will be of very much small size. Fresh air introduced will displace corresponding quantity of air which will escape through openings etc.