• Safe and secure

  • Quick and easy

  • web-based solution

  • 24/7 Customer Service

Rate form

4.6 Statisfied

997 votes

Notes: A Stepwise Guidebook on Signing Modes 10b Online

CocoSign provides wings to your business by simplifying document workflow and optimizing business processes. Want to know more about the Modes 10b? Read on to find out how to sign and fill your form quickly and easly.

Get the form with a single click

e-Sign the form online

Save the signed form

  1. find the right form suitable for your needs on CocoSign
  2. click "Get Form".
  3. Browse through the document and determine which parts are needed to be filled.
  4. Enter the important details in the customizable sections.
  5. Verify the entire document for any potential omissions.
  6. insert your electronic signature to authenticate the form with the signing tools on the dashboard.
  7. click the button Done after filling the form.
  8. Now you are able to save, print and share the completed form.
  9. Feel free to contact our CocoSign Support Team in case any question arises.

Irrespective of sector and industry, CocoSign stands to improve your document workflow digitally. e-Sign documents hasslefree with CocoSign.

Thousands of companies love CocoSign

Create this form in 5 minutes or less
Fill & Sign the Form

The Definite Guide to Modes 10b

youtube video

Check How to Enter the Modes 10b

so in the last few videos we've been.talking about four Nell's equations in.this video we're gonna sort of switch.gears and start talking about waveguides.and in particular we're going to be.talking about what are called.transverse electric and transverse.magnetic mode x' now you might be asking.what do these have to do with Fornells.equations and the answer is that one.thing we deal with a lot in waveguides.is total internal reflection or perfect.reflection off of an interface so if I.have an incoming wave an incoming plane.wave with a certain Ray and it bounces.off of this interface a lot of the times.in the wave guide this reflection is.going to be perfect in other words if.I've got some incident field here I'm.gonna have exactly the same magnitude.field bouncing off of the surface and so.we'd like to know from the perspective.of Fornells equations and the reflection.coefficient all that good stuff what are.the consequences of this so what happens.when we have one plane wave racing.towards the interface and then another.plane wave leaving the interface with.the same exact magnitude and we're not.going to worry about what happens below.this interface we're just gonna be.focused on what happens above so let's.start out with just the case of normal.incidence so I've got an electromagnetic.wave coming down on this surface and.it's reflected back with exactly the.same magnitude that it had before so.we've got an incident electromagnetic.wave and then an outgoing.electromagnetic wave with the same exact.magnitude let's also call this what.direction do we want to call this let's.call this the X direction and we're not.gonna worry about what's happening below.this interface for the time being we're.just gonna worry about what's happening.above well first what happens when we.what happens when this wave is normally.incident so what happens when it's just.pointing straight down well we're gonna.have one wave with a magnitude going in.this direction we're gonna have another.way of traveling in the opposite.direction with the same magnitude and we.know when we add.two traveling waves when we add two.waves traveling in opposite directions.so once going this way one's going that.way what we end up with is a standing.wave of a larger amplitude so whereas.before we might have had something that.looked like cosine of Omega t minus KZ.if we're propagating in the Z direction.this turns into a standing wave so the.time dependent part and the spatial.dependent part are separated so the wave.is no longer moving and that's exactly.what we get in this case where we've got.one wave propagating downward getting.reflected off of an interface perfectly.and then going back upward we'll just.end up with a standing wave in this.space so let's call this the Z direction.if before we had a traveling wave going.in the Z direction now we've got a.standing wave so it's its amplitude.changes with time but it sort of just.gets bigger and larger and bigger and.larger in the same same position so it.doesn't move from side to side but what.about this case above the case where.we're at an angle we're not just.straight up and down.well you might expect that we're partly.gonna have a standing wave because part.of the wave that we have is traveling.down and then as it gets reflected it's.traveling up and but we also have a.component that's moving in this.direction towards the right so you might.expect it looks something like a.mishmash of a standing wave and a.traveling wave and you'd be right but.let's let's get more more precise with.this so let's say that we've got an.incoming wave so here's a one of our.phase fronts and it's got a certain K.vector so it's just the direction that.it's propagating that has some component.so we called this what we call this we.call the Z let's call this X.and in that case we'd have why pointing.out at us so we've got some component.this guy here pointing along the.x-direction so we call that KX we've.also got some component pointing along.the z direction we call this component.KZ and if you have the angle here so.theta which is nothing but the angle of.incidence of our plane wave so this.angle here then you can calculate K X in.KZ they're just two sides of a triangle.and KZ is just whatever the magnitude of.our K vector is I'm going to call that K.naught times cosine theta and similarly.KX is just K naught times sine not.cosine sine of theta and so this is for.our incident wave what about for a.reflected wave well it's traveling at.exactly the same angle just in the.opposite direction so KZ has flipped.sine so for a reflected wave reflected.wave the z component is now pointing up.so this is our K Z component whereas.before it was pointing down so for here.for this wave KZ is minus K naught times.cosine of theta and KX is the same thing.that it was before just K naught times.cosine of theta now what happens when we.add these two waves and we're going to.assume again that they're the same exact.amplitude let's call that II not so.we've got two different waves which we.want to add together and let's also.assume that these waves are s polarized.so our electric field is pointing in.pointing outwards at us in the Y.direction so we don't have to worry.about the polarization flipping as we go.as we reflect the wave and if we want.our total electric field let's just add.these two up so we've got a y hat e.naught and I'm going to do this in.complex notation cuz surprisingly it.makes everything much easier e to the J.Omega T and now a general a traveling.wave you can write as K dot R and we.have our but we have our K X component.and our KZ component separately we have.we are we already know what they are so.we have K X times X minus K Z times Z.and then we add to that the reflected.wave so y hat e naught e to the J Omega.T - and actually to make life easier I'm.gonna write everything in terms of the.incident K components so KZ is just.defined to be this and K X is defined to.be this and so now we're for a reflected.wave where the Z component is pointing.in the opposite direction so I need to.do plus KZ times Z and this looks nasty.but we can factor virtually everything.out so Y hat e naught e to the J Omega t.minus K Z Z and then the only thing that.we're left with is e to the minus j kz.or sorry yeah there should be KX X.naught kzz so KX times X we're left with.e to the - Jake he's K Z times Z plus e.to the plus J KZ times Z and so this is.just a cosine or two times a cosine and.so we end up with and if we take the.real part of this so we go back to back.to what we would physically observe we.see that the final answer will just be.there's a factor of two out front - y.hat e naught cosine of Omega t minus KX.times X times cosine of KZ times Z so.indeed we get a traveling wave in the X.direction so it moves as you increase.time but in the Z direction so along the.this axis up up and down we have a.standing wave well we have a standing.wave.and this is what's known as in in the.context of waveguides this is called a.te mode te for a transverse electric so.transverse electric which just means.that the electric field direction of the.polarization of the electric field in.this case it's in the Y direction is.transverse or orthogonal to the.direction of the waves propagation so.it's propagating along X and the field.is pointed along Y so the two are.transverse to each other now you could.have carried out exactly the same.analysis if instead of the electric.field pointing out of the board.we had the magnetic field pointing out.at the board or I guess I've been.drawing that in drawing that in blue so.if we had the magnetic field pointing.out we'd have the same exact result.except we just replace this Enoch with.an H naught and this e total with an H.total and this would be referred to as a.TM of mode.now one of the interesting things about.te modes and TM modes as well is that.the while we have an electric field.that's perpendicular to the direction of.the propagating wave our magnetic field.in general actually has components both.orthogonal to or transverse to the.propagation direction and in the.direction of propagation so this is not.something you see when you just have a.plane wave in free space but when you.have two waves interfering with each.other you actually get multiple.components for the magnetic field one of.which is along the direction of.propagation so you'll both have an H X.component and an H Z component.and 40m mode similarly if you had just.hy you'd get px and easy components and.it's much easier to analyze things when.we only have to worry about a single.component so we only have one component.for te modes for electric fields and one.component for TM modes for magnetic.fields so when we work with TM modes.we'd like to deal with magnetic fields.and when we work with te modes we like.to work with electric fields just.because it makes our mathematical lives.easier and we'll be going much more into.depth on te and TM modes in the future.so don't worry right now if you don't.understand everything the core idea is.just that when we have one plane wave.propagating in one direction and a plane.wave of exactly the same magnitude and.an op and the opposite angle propagating.in another direction so theta theta then.we end up with these things we end up.with a standing wave along this.direction and a traveling wave along.this direction and in the context of.wave guides this is referred to as a.mode and why we will see in the future.so I hope you enjoyed this video if you.did please give it a like down below and.subscribe to my channel also if you have.any questions or comments please feel.free to post those down below and I'll.try to get back to you as soon as I can.and thanks for watching I'll see you.next time.

How to generate an electronic signature for the Modes 10b online

An all comprising solution for signing Modes 10b is something any business can benefit from. CocoSign has found a way to develop a easy, low-cost, and secure online software that you can use.

As long as you have your device and an efficient internet connection, you will have no problem esigning documents. These are the simple tips you need to follow to sign the Modes 10b:

  1. Discover the document you need to sign on your device and click 'Upload'.
  2. Select 'My signature'.
  3. There are three ways to generate your signature: you can draw it, type it, or upload it. Choose the one that you find most acceptable.
  4. Once you have generated the signature, click 'Ok'.
  5. Finish by selecting 'Done'.

Then you just need to sign your document and have it ready to be sent. The next step is up to you. You can send the form in an email.CocoSign makes all the aspects of signing an electronic document easy and beneficial.

You get many features like 'Add fields,' 'Merge documents,' 'Invite to sign,' and a few others, all meant to make it user-friendly and comprehensive.

The best thing about CocoSign is that it functions on all the devices you utilize, so you can depend on it and can sign electronic documents irrespective of the device you are utilizing.

How to create an electronic signature for the Modes 10b in Chrome

Chrome is probably the most welcome browser recently, and it's no wonder. It has all the features, integrations and extensions you can demand. It's extremely useful to have all the tools you use available, due to the browser extensions.

Hence, CocoSign has partnered with Chrome, so you can just go to the Web Store to get the extension. Then, you can sign your form directly in the browser. These are a few simple tips to lead you through the signing process:

  1. Discover the link to the document that needs to be signed, and select 'Open in CocoSign'.
  2. Use your registered account to log in.
  3. Discover the link to the document that needs to be signed, and select 'Open in CocoSign'.
  4. Direct to 'My signature' and generate your designed signature.
  5. Find the right position on the page, add the signature, and select 'Done'.

After following the above guide, you can either save the document or share it to as many recipients as you need.

You will find that CocoSign has made efforts to make your Chrome signing experience as pleasant and unworried as possible, by adding a wide range of handy features, like merging PDF files, adding multiple signers, and so on.

How to create an electronic signature for the Modes 10b in Gmail?

Email is the major way to send documents recently, and going paperless has a lot of advantages, speed being the main one. You can sign a document and have your partner receive it immediately.

Your email recipient is one click away. This simple process can be applied to any documents that needs a signature: contracts, tax forms, and all kinds of agreements or declarations.

The great thing about CocoSign is that it helps you sign electronically the Modes 10b in your Gmail, without having any other devices involved. You can do that using the CocoSign Chrome extension. There are only five simple tips you need to follow to sign your form right in your Gmail account:

  1. Find the CocoSign extension in the Chrome Web Store, and download it to your browser.
  2. Log into your Gmail account.
  3. Direct to the Inbox and find the email containing the paper you need to sign.
  4. On the sidebar, you will find the button 'Sign'; click it and generate your personalize e-signature.
  5. Once you select 'Done,' the signature will be completed, and the signed document will be automatically saved in a draft email generated by the CocoSign software.

Saving time was the primary concern behind the efforts made by CocoSign to develop a secure and safe software that can allow you to waive signing docs with pen.

Once you try the software, you will immediately become one of the many satisfied clients who are enjoying the advantages of e-signing their documents right from their Gmail account.

How to create an e-signature for the Modes 10b straight from your smartphone?

Smartphones and tablets are so evolved recently, that you can utilize them for anything what you can do on your laptop and PC. That's why more and more people are finishing work task from these mobile devices, saving even more time.

It's also a huge benefit work from home. As long as your internet connection is stable, you can conduct your business from anywhere.

When you need to sign a Modes 10b, and you're not in the office, the CocoSign web application is the answer. Signing and sending a legally binding document will take seconds. Here is what you need to do to sign a document on your phone online:

  1. Use your browser to go to CocoSign and log in. If you don't already have an account, you need to register.
  2. Discover the document that needs to be signed on the device and open it.
  3. Open the document and go to the page to insert your esignature.
  4. Select on 'My Signature'.
  5. Create your designed signature, then download it on the page.
  6. Once you have done, go over it again, select 'Done'.

All these tips won't take long, and once the document is signed, you decide the next step. You can either download it to the device or share it in an email or using a link.

A significant benefit of CocoSign is that you can use it with with any mobile device, regardless of the operating system. It's the ideal method, and it saves cost, it's safe.

How to create an e-signature for the Modes 10b on iOS?

Creating an electronic signature on a iPhone is not at all hard. You can sign the Modes 10b on your iPhone or iPad, using a PDF file. You will find the application CocoSign has created especially for iOS users. Just go to search CocoSign.

These are the tips you need to sign the form right from your iPhone or iPad:

  1. Download the CocoSign app on your iOS device.
  2. With your email to generate an account, or sign in with Google or Facebook.
  3. Discover the PDF that needs to be signed on the iPhone or pull it from the cloud.
  4. Discover the place where you want to add the signature; select 'Insert initials' and 'Insert signature'.
  5. Put down your initials or signature, place them correctly, and save changes to the document.

Once finished, the document is ready for the next step. You can download it to your iPhone and send it by email. As long as you have a efficient internet connection, you can sign and send documents instantly.

How to create an electronic signature for the Modes 10b on Android?

iOS has lots of of users, there's no doubt of that, but most phone users have an Android operating system. To fulfill their needs, CocoSign has developed the software, especially for Android users.

You can get the app on Play Market, install it, and you can start signing documents. These are the tips to sign a form on your Android device:

  1. If you already have a CocoSign account, sign in. If you don't have one yet, you can sign in using Google or Facebook.
  2. Select on '+' to open the document you want to sign, from cloud storage or using your camera.
  3. Discover the place where the signature must be placed and then use the popup window to write your signature.
  4. Insert it on the page, confirm, and save the changes.
  5. The final step is to save the signed document.

To send the signed form, just attach it to an email, and it will reach your clients instantly. CocoSign is the best way to sign many forms every day, all at a low price. It's time to forget all about physical signatures and keep it all electronic.

Easier, Quicker, Safer eSignature Solution for SMBs and Professionals

No credit card required14 days free