It's assumed to be multiplication of 'function of only x' and 'function of only y' to solve the differential equation. The method is known as 'separation of variables'
Circular waveguide video has been uploaded. General solution in cylindrical coordinate system th-cam.com/video/ofScinEG9U8/w-d-xo.html and for circular waveguide th-cam.com/video/PHNjH653OcQ/w-d-xo.html and parallel plate waveguide is also available Thank you
TE is transverse electric, means Electric field is only in transverse I. e. Ex and Ey but Ez is zero. hx and hy are transverse components of Magnetic field.
TE10 is not dominant mode it's TE01, if a=1cm, b=2cm then, TE01 mode: m=0, n=1 so, cutt-off wavelength=2*b=4cm while, TE10 mode: m=1, n=0 so, cutt-off wavelength=2*a=2cm Thus TE01 is the dominant mode.
Very helpful...general solution comes from Maxwell's equation ,while watching video keep this thing in your mind
Thanks and welcome
Thank god I saw this video , reading in the textbook clutters the brain
life is much easier after this...
Thanks :-)
Professor thank you for the explanation. I like your page. It helps alot
you saved my 15 marks !!!
thankzzzz
Good explanation. Helpful.
Very helpful 😄
Thank you
Nice explanation
Nice Explained 👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌👌
Thanks Sir
Thanks and welcome
there is a lot of content in this video......dont miss it...
Thanks and welcome
At 11:40 how we have calculated Hx,Hy,Ex,Ey...
Please reply tomorrow is my exam
Refer video on general solution
@@RFDesignbasics could you paste link in comment box.. Thank you
th-cam.com/video/45ywQyXNlak/w-d-xo.html
hey nak a four equations pettva Ramakrishna
@@meghanaejjada exams ayipoyi 3 months ayitundi
Please do circular waveguide, strip line and microstrip line sir
Perfect sir Thanks
great video
Thank you
Is rectangular wave guide problem is electrostatic?
Best video available
Thank you
Can we use the boundary conditions in TE for the TM case?
Boundary conditions remains same.
7:15 in Y should it be ky ??
Awsm sir..plz make a video on cavity resonator...🙏🙏
Thanks!! Now I have done, If you need, you can watch. Thanks for the topic suggestion.
sir plz circular waveguide k TE TM modes k liye b video bna dijiye plz..... bhot accha padhaya aapne....thanks
Sure
Uploaded.
@@RFDesignbasics sir ab to semester khtm ho gya 😂😂 vese thank u
You are welcome. Hope you got good grades.
Why we need to calculate boundary conditions?
To solve the Helmholtz's equation.
Sir why is E = X(x) Y(y)?
It's assumed to be multiplication of 'function of only x' and 'function of only y' to solve the differential equation. The method is known as 'separation of variables'
Sir in this what is Kc ?? Please clear my doubt sir
It is called cut off wave number and it is equal to squareroot(k^2-beta^2). Where k is wave number and beta is phase constant.
Sir I have one doubt?
Go ahead... Ask anything
Thank you so much
sir pls make videos for circular & parallel plate waveguides also
Yes, I will do it. Thank you 🙂
Circular waveguide video has been uploaded.
General solution in cylindrical coordinate system th-cam.com/video/ofScinEG9U8/w-d-xo.html and for circular waveguide th-cam.com/video/PHNjH653OcQ/w-d-xo.html and parallel plate waveguide is also available Thank you
where is the circular waveguide video
Now it is available. Thank you for suggestion.
Shouldn't be 1/√(permeability*permittivity) equals c at time 12.44 ?
No that is equal to Vp (Phase velocity). For c you need to take permeablity and permittivity of free space.
Sir "frequency response of Op-Amp " make a video
❤❤❤❤
Finally ; )
Can you send me the notes in pdf?
Couldn't make pdf. I will make it from next time.
thank you, sir!
I would like to get CO-AXIAL Cable || Derivation of Field component for TEM, TE and TM modes.
Thank you in advance
It's uploaded th-cam.com/video/2qL4TaJpkKk/w-d-xo.html
Circular wave guide pr v banaye sir
Banaate hain.. Thank you :-)
@@RFDesignbasics sir ,TM ,TE modes in circular wave guide jald hi video banaye
Uploaded.. you can watch now.
What's TE hx, hy
TE is transverse electric, means Electric field is only in transverse I. e. Ex and Ey but Ez is zero. hx and hy are transverse components of Magnetic field.
TE10 is not dominant mode it's TE01,
if a=1cm, b=2cm then,
TE01 mode: m=0, n=1
so, cutt-off wavelength=2*b=4cm
while, TE10 mode: m=1, n=0
so, cutt-off wavelength=2*a=2cm
Thus TE01 is the dominant mode.
Practically a>b.. You are right if a