*In this video, the Electric Field of Circular loop of charge is found at the specific location. During the discussion, the expression of electric field is derived and the special cases are also covered, such as* *1) When observation point is at the centre of the loop* *2) When the observation point is very far away from the loop* _For more videos about the Electromagnetic Theory, check this playlist:_ https://youtube.com/playlist?list=PLwjK_iyK4LLCt_s18Pmo9cjNykaVZTUdk&si=of2hwPJ7Eg4FREYf _For more videos on Digital Electronics, check this playlist:_ https://youtube.com/playlist?list=PLwjK_iyK4LLBC_so3odA64E2MLgIRKafl&si=ZEnkYkK8aWiRqg_3 _For more videos on Analog Electronics, check this playlsit:_ https://youtube.com/playlist?list=PLwjK_iyK4LLBVM18VZ7JKW-q88FAtnr8_&si=iY_T6DJvDHfBcZhM This video will be helpful to all the students of science and engineering in understanding how to find the Electric Field of Circular Loop. #allaboutelectronics #emft #electricfield Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

In this short video, the concept of Super Node is explained. What is Super Node ? When the ideal voltage source (independent or dependent voltage source) exist between the two non-reference nodes in the circuit, then those two nodes can be considered as a single node. And such node is know as a single node. *For more information, check this video on Super Node:* https://youtu.be/iIswDPKSQT4?si=sooaNIw1tghO0Lk7

*In this video, the expression of Electric Field due to finite length of line charge is discussed (with derivation). And during the discussion, the different cases were also covered such as,* _1) Electric Field due to Infinite length Line Charge_ _2) Electric Field due to Finite length Line Charge ,when observation point is along the centre of the line charge_ _3) Electric Field Intensity due to Finite length Line Charge, when observation point is far away from the line charge_ _4) Electric Field Intensity due to Finite length Line charge, when observation point is along the same axis of the line charge_ The following topics are covered in the video: 0:00 Electric Field due to Finite Length Line charge (derivation) 17:16 Electric Field of Infinite Line charge 20:02 Electric Field of Finite Line charge when observation point is along the centre of the line charge 22:46 Electric Field of Finite Line charge when observation point is far away 24:16 Electric Field of Finite Line charge when observation point is along the axis of the line charge *For more useful videos related to Electromagnetic Theory, check this playlist:* https://bit.ly/4nrqFDv *For more information about the topic, check the following related videos:* _1) Line, Surface and Volume charge:_ https://youtu.be/jsyn5gFmnfU?si=KtlFfQYRhdlaJrEM _2) Coulomb's Law:_ https://youtu.be/X-4Vsu-Rtaw?si=dKR514AZUF4NEveH This video will be helpful to all the students of science and engineering in understanding, how to find the electric field of Finite length Line charge. #ALLABOUTELECTRONICS #emft #electricfield #linecharge #electromagnetic #allaboutelectronics Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

In this video, the continuous charge distribution such as line charge, surface charge and volume charge is explained with solved examples. The following topics are covered in the video: 0:00 Line Charge (with Solved Examples) 11:39 Surface Charge (with Solved Examples) 26:42 Volume Charge (with Solved Examples) *For more videos on Electromagnetic Theory, check this playlist:* https://bit.ly/4nrqFDv *For more videos on Analog Electronics, check this playlist:* https://bit.ly/3QtqdnN *For more videos on Digital Electronics, check this playlist:* https://bit.ly/31gBwMa *What is Line Charge Distribution:* In Line charge distribution, the electric charge is distributed continuously across the line. In this case, the electric charge is represented using the line charge density. (unit - C/m) In this video, different types of line charge distributions are explained using the solved examples. *What is Surface Charge Distribution:* In Surface charge distribution, the electric charge is distributed continuously across the surface area. In this case, the electric charge is represented using the surface charge density. (unit - C/m²) In this video, different types of surface charge distributions such as surface area of cylinder, the surface area of triangular region are explained using the solved examples. *What is Volume Charge Distribution:* In Volume charge distribution, the electric charge is distributed continuously across the volume. In this case, the electric charge is represented using the surface charge density. (unit - C/m³) In this video, different types of volume charge distributions (such as volume charge of cube and sphere) are explained using the solved examples. This video will be helpful to all the students of science and engineering in understanding the concept of Line charge, Surface Charge and Volume Charge. #ALLABOUTELECTRONICS #continuouscharge #linecharge #volumecharge #emft #emt Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, Coulomb’s Law and the concept of electric field are explained with a solved example for better understanding.* *In the later part of the video, real-world applications—such as laser printers and electrostatic precipitators—are illustrated to show how electrostatic charges and the forces between them play a crucial role.* *Following Topics are covered in the video* 0:00 What is Electrostatics? Coulomb's Law Explained 9:14 Electric Field Intensity Explained 11:40 Solved Example 18:42 How electrostatic precipitator and a laser printer work based on Coulomb’s law _What is Electrostatics?_ Electrostatics is the branch of electromagnetics that deals with electric charges at rest and the forces, fields, and potentials associated with them. _Coulomb's Law_ The electrostatic Force between the two point charges Q1 and Q2 is directly proportional to the product of the Q1 and Q2 and it is inversely proportional to the square of the distance R between them. Mathematically, the electrostatic force F between two charges can be given as F = k Q1Q2 / R² Unit - Newton (N) _Electric Field Intensity_ Electric field intensity at a given point is defined as the force experienced per unit positive test charge placed at that point. E = F / Qt, where, Qt is a test charge Unit - N / C or V/m *For more videos on Electromagnetic Field Theory, check this playlist:* https://bit.ly/4nrqFDv *For more video on Analog Electronics, check this playlist* https://bit.ly/3QtqdnN *For more video on Digital Electronics, check this playlist* https://bit.ly/31gBwMa This video will be helpful to all the students of science and engineering in understanding the Coulomb's Law and the concept of Electric Field Intensity. #allaboutelectronics #coulombslaw #electricfieldintensity #emft Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

In this video, the concept of Curl and the Stoke's Theorem (with proof) is explained from Electromagnetic Theory perspective. The following topics are covered in the video: 0:00 What is Curl? 4:36 Stokes' Theorem 8:06 Vector Field Classification *What is Curl?* The Curl represents the circulation or rotation of the vector field around the point. It is a vector quantity and its direction is along the axis of the rotation. (can be found using the right hand screw rule). If A is the vector filed then the Curl of the Vector Field A can be given as ∇ x A. *Stokes' Theorem* The Circulation of Vector Field A around the closed path L is equal to the surface integral of the Curl of A over the open surface bounded by L. The Curl gives the circulation of the vector field at the given point, while the stoke's Theorem gives us the Circulation of the Vector Field around the Area bounded by the closed path L. In this video, the concept of Curl, the properties of the Curl is explained. And then the Stokes' Theorem (with Proof) is explained. *For more videos on Electromagnetic Theory, check out this playlist:* https://bit.ly/4nrqFDv *For more videos on Digital Electronics, check out this playlist:* https://bit.ly/31gBwMa *For more videos on Analog Electronics, check out this playlist:* https://bit.ly/3QtqdnN This video will be helpful to all the students of science and engineering in understanding the concept of Curl and the Stokes' Theorem from Electromagnetic Field Theory Perspective. #allaboutelectronics #curl #vectorcalculus #StokesTheorem #electromagneticfield #emft #electromagentics Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

In this short video, three real world applications of the Multiplexer are mentioned. Applications: 1) Data Acquisition System for multiplexing multiple inputs to ADC 2) Internal Data Routing in CPU and ALU 3) FPGA *For more information about Multiplexer, check out this video:* https://youtu.be/aQlF-9i3fAA?si=_-WSM7e5Dd3lwb7a

*In this video, What is Divergence, the physical significance of the Divergence and the Divergence Theorem is explained from the Electromagnetic Theory Perspective. And at the later part of the video, the solved example related to it is also covered.* The following topics are covered in the video: 0:00 What is Divergence ? 4:23 Mathematical Proof Of Divergence and Gauss Theorem 12:15 Expression of Divergence in Different Coordinate Systems 26:40 Solved Example *For more videos on Electromagnetic Theory, check this playlist:* https://bit.ly/4nrqFDv *For more videos on Analog and Digital Communication, check this playlist:* https://bit.ly/42XvcVW *Fore more videos on Digital Electronics, check this playlist:* https://bit.ly/31gBwMa *What is Divergence?* The Divergence measures the net outward flux of the vector field from infinitesimal volume around a point. In this video, the physical significance of the Divergence is explained and the mathematical proof is also provided. Moreover, how to write and remember the expression of Divergence in Cylindrical and Cartesian Coordinate system is explained intuitively. And at the later part of the video, the solved example related to Divergence Theorem is also covered. This video will be helpful to all the students of science and engineering in understanding the concept of Divergence and the Divergence Theorem from Electromagnetic Theory Perspective. #ALLABOUTELECTRONICS Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, the concept of Del Operator, the physical significance of Gradient and how to represent the Gradient of the scalar field in the different coordinate system is explained with solved example.* The following topics are covered in the video: 0:00 What is Del Operator 3:33 What is Gradient and its physical significance 8:17 Solved Problem *Del Operator:* It is a vector differential operator. Depending how this operator is used with vector or scalar field, we will get either Gradient, Divergence or Curl. When this operator is used with Scalar Field, is gives Gradient of the Scalar Field. *Gradient of Scalar Field* The Gradient of the Scalar Field is Vector Quantity. At any given point, the Gradient of Scalar field is the maximum rate of change of the field at that point. In this video, how to mathematically represent the Gradient in the different coordinate system is explained. And mathematically it is also proved that indeed this gradient points in the direction where there is a maximum change in the scalar field. _*The link for the other useful videos and playlist:*_ *Line, Surface and Volume Integral Explained* https://youtu.be/JPOWjAt0aC4?si=-F7-JgBGvI2AGYN3 *Electromagnetic Theory (playlist:)* https://bit.ly/4nrqFDv *Digital Electronics (playlist):* https://bit.ly/31gBwMa *Analog Electronics (playlist):* https://bit.ly/3QtqdnN This video will be helpful to all the students of science and engineering in understanding the concept of Del operator, the physical significance of Gradient and how to represent the Gradient of the Scalar Field in the different coordinate system. #ALLABOUTELECTRONICS #gradient #emft #vectorcalculus Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, how to find the Line, Surface and the Volume Integral of the vector field is explained (with examples). And the concept of the differential length, differential surface and the differential volume from the electromagnetic field theory perspective.* The following topics are covered in the video: 0:00 Introduction 3:00 Differential length, Differential Surface and Differential Volume 19:50 Line, Surface and Volume Integral of vector field 24:40 Example 1 27:37 Example 2 (Homework) _In this video, the concept of differential length, differential surface and differential volume is explained, and the expression of each is derived in Cartesian, Cylindrical and Spherical Coordinate system._ _And with the help of it, how to find the line, surface and volume integral of the Vector field is explained with solved examples._ For more videos on Electromagnetic Theory, check this playlist: https://youtube.com/playlist?list=PLwjK_iyK4LLCt_s18Pmo9cjNykaVZTUdk&si=vXjjohelMOnwQVvY For more videos on Digital Electronics, check this playlist: https://youtube.com/playlist?list=PLwjK_iyK4LLBC_so3odA64E2MLgIRKafl&si=HZf7iWkcdYGm84LC This video will be helpful to all the students of science and engineering in understanding the concept of differential line, differential surface and differential volume and how to find the Line, Surface and Volume Integrals of the vector field. #allaboutelectronics #electromagnetics #vectorcalculus Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this short video, how to transform the vector into Cylindrical Coordinate system is explained.* *For more information about the cylindrical coordinate system and the vector conversion, check this video:* https://youtu.be/c_uhZ-yl-Rs #allaboutelectronics #cylindricalcoordinates #vectoralgebra

*In this video, the vector conversion between the Cylindrical and the Spherical coordinate system is explained (along with derivation) and at the later part of the video, the solved example related to vector conversion between different coordinate conversion is also covered.* *_For more videos related to Electromagnetic Theory, check this playlist:_* https://bit.ly/4nrqFDv *_For more videos related to Digital Electronics, check this playlist:_* https://bit.ly/31gBwMa The following topics covered in the video: 0:00 Coordinate Conversion between Spherical and Cylindrical Coordinate Systems 4:06 Vector Conversion between Spherical and Cylindrical Coordinate Systems 14:58 Solved Example on Vector Conversion between Different Coordinate Systems This video will be helpful to all the students of science and engineering in understanding the vector conversion between the different coordinate systems. #allaboutelectronics #emft #vectoralgebra #coordinateconversion Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, the Spherical Coordinate System is explained from Electromagnetic Theory perspective. The video also explains the coordinate conversion and vector conversion between Spherical and Cartesian Coordinate Systems.* The Following topics are covered in the video: 0:00 Coordinates (r, θ, φ ) in Spherical Coordinate System 3:05 Coordinate Conversion (Spherical to Cartesian and Cartesian to Spherical) 7:35 Unit Vectors in Spherical Coordinate System 10:52 Vector Conversion between Spherical and Cartesian Coordinate System (with derivation) *For more videos on Electromagnetic Theory, check this playlist:* https://bit.ly/4nrqFDv *To visualise the Spherical Coordinates in 3D space, check this interactive tool:* https://bit.ly/4joSHPL *Spherical Coordinate System* Spherical Coordinate System is curvilinear coordinate system where the three coordinates are (r, θ, φ ). r - Radial Distance θ - Polar Angle φ - Azimuth Angle At given point, the unit vectors in the Spherical Coordinate System points in the increasing direction of r, θ and φ. This video, explains the coordinate conversion as well the vector conversion between the spherical and cartesian coordinate system in detail (with derivation). This video will be helpful to all the students of science and engineering in understanding the Spherical Coordinate System, and vector conversion between Spherical Coordinate System and the Cartesian Coordinate System. #ALLABOUTELECTRONICS #allaboutelectronics #electromagnetics #sphericalcoordinates #vectoralgebra Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, the Cylindrical coordinate system is explained in detail from the Electromagnetic Field Theory perspective. The video explains the unit vectors in the cylindrical coordinate system. And how to convert the coordinates from cartesian to cylindrical and cylindrical to cartesian coordinate system. And later on, the expression for converting the vector from cartesian to cylindrical coordinate system and vice versa (the transformation matrix) is also derived.* *_To understand and Visualise Cylindrical Coordinates in 3D, check this link:_* https://bit.ly/4jfm1YI *For more videos on Electromagnetic Theory, check this Course:* https://youtube.com/playlist?list=PLwjK_iyK4LLCt_s18Pmo9cjNykaVZTUdk&si=kywoQxq5Bvt_rZAM *For more videos on Analog Electronics, check this playlist:* https://youtube.com/playlist?list=PLwjK_iyK4LLBVM18VZ7JKW-q88FAtnr8_&si=aL6FvloRTKLRbPiw *For more videos on Digital Electronics, check this playlist:* https://youtube.com/playlist?list=PLwjK_iyK4LLBC_so3odA64E2MLgIRKafl&si=H2ZQj6uxAW43gVOg The following topics are covered in the video: 0:00 Introduction | The need of studying different coordinate systems in EMFT 4:51 Cylindrical Coordinate System and unit vectors in this coordinate system 10:10 Cylindrical to Cartesian coordinate conversion and vice versa 13:22 Vector Conversion (derivation) from Cylindrical to Cartesian coordinate system and vice versa This video will be helpful to all the students of science and engineering in understanding the Cylindrical Coordinate System and how to convert the vector from Cartesian to Cylindrical coordinate system and vice versa. #allaboutelectronics #emft #cylindricalcoordinatea #coordinateconversion #cartesiantocylindrical Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this video, what is virtual ground concept in Operational Amplifier, and why it exist in the op-amp is explained. Also, the conditions under which this virtual ground concept is applicable in op-amp is also explained using example.* For more videos on op-amp, check this playlist: https://youtube.com/playlist?list=PLwjK_iyK4LLDBB1E9MFbxGCEnmMMOAXOH&si=kTbiApjjQDiOJV2t This video will be helpful to all the students of science and engineering in understanding the virtual ground concept in op-amp and why it exist. #allaboutelectronics #opamp #operationalamplifier #virtualground #analogelectronics Support the channel through membership program: https://www.youtube.com/channel/UCBkOVp1Cqz4MR0LYR8vKpZg/join -------------------------------------------------------------------------------------------------- Follow my second channel: https://www.youtube.com/channel/UCGA2TO8ylVqFHpucwn_6Jlw Follow me on WhatsApp channel: https://www.whatsapp.com/channel/0029VaLeZrfAO7RDoKr7je0l Follow me on Facebook: https://www.facebook.com/ALLABOUTELECRONICS/ Follow me on Instagram: https://www.instagram.com/all_about.electronics/ -------------------------------------------------------------------------------------------------- Music Credit: http://www.bensound.com

*In this short video, the interesting property of the XNOR gate is explained. When the no of inputs to the XNOR gates are odd, e.g 3 inputs, then its output cannot be simply represented as A ⊙ B ⊙C. But that holds true when no. of inputs are even. This property of the XNOR gate is shown and explained in this short video.* *For more information, about the same check this video on XOR and XNOR gate:* https://youtube.com/shorts/Fk49H5xS_h0?si=DUm3WwGzRgkYhtTY