Bremsstrahlung Radiation | X-ray production | X-ray physics | Radiology Physics Course #19
Vložit
- čas přidán 23. 02. 2023
- High yield radiology physics past paper questions with video answers
Perfect for testing yourself prior to your radiology physics exam 👇
➡️ X-RAY, ULTRASOUND AND MRI BUNDLE (SAVE over 25%): www.radiologytuts.com/bundles...
➡️ X-RAY QUESTION BANK: www.radiologytuts.com/courses...
➡️ ULTRASOUND QUESTION BANK: www.radiologytuts.com/courses...
➡️ MRI QUESTION BANK: www.radiologytuts.com/courses...
=========================
I have also created two RADIOPAEDIA LEARNING PATHWAYS
bit.ly/radiopaediaphysics (👈 25% OFF DISCOUNT LINK)
WHAT’S INCLUDED?
✅This CZcams series Ad free
✅Constantly updated Radiopaedia articles
✅Summary slides
✅Key take home bullet points throughout
✅Multiple review quizzes
✅Short answer review questions
✅Official Radiopaedia course completion certificate
25% discount using this link: bit.ly/radiopaediaphysics
=========================
Finally, we will review the production of X-rays at the anode. There are two mechanisms of X-ray production - Bremsstrahlung and Characteristic radiation. Let's start by looking at Bremsstrahlung radiation. Bremsstrahlung means 'braking', which describes this mechanism well. Bombarding electrons at the anode slow down when experiencing an attractive electromagnetic force of the positively charged nucleus. This loss in kinetic energy is accounted for by the release of electromagnetic radiation (the energy of which is proportional to the kinetic energy lost by the electron).
=========================
SIGN UP TO MY MONTHLY EMAIL NEWSLETTER 👉 bit.ly/3ruLh3d
Not sure if the question banks are for you?
If you're here, you're likely studying for a radiology physics exam. I've spent the last few months collating past papers from multiple different countries selecting the most commonly asked questions. You'll be surprised how often questions repeat themselves!
The types of questions asked in FRCR, RANZCR AIT, ARRT, FC Rad Diag (SA), ABR qualifying Core Physics and MICR part 1 are surprisingly similar and the key concepts remain the same throughout. I've taken the most high-yield questions and answered them in video format so that I can take you through why certain answers are correct and others are not.
Happy studying,
Michael
#radiology #radres #FOAMrad #FOAMed
First year of Radiography and your videos are literally saving my mental sanity. You speak so clear and in depth that it doesn't even feel I am learning, you make physics "easy" Thanks a lot!
Ah that’s great news Delia ☺️ so glad they’re helpful!
Understanding physics for X-ray more with your videos than I did in my radiology classes and that was a very long time ago.
By far the best explanation I was able to find! Thanks! Subscribed!
Thank you is not enough. You saved my life !
Thank you for the great effort
Medical physics master student
Brilliantly explained! Thank you!
Thank you so much for making xray physics so much interesting and easy. What i liked the most is that you are not just brushing the topics off, you are letting us dive deep into your wisdom
Thank you Aman. That's very kind of you!
I'm paying thousands a month for my classes and i'm learning more from your "free" videos than at my collage. Great job.
Thank you Timothy. Makes me very happy to hear! Appreciate your support. Feel free to ask any questions if you come across something you don’t understand. Best of luck with your studying 📚
I'm finding it challenging to find the answer to this objective:
Identify factors affecting characteristic K-shell photon production.
Brilliantly explained
amazing explanation ❤❤thank you .
So grateful for finding you, u hooked me up i guess i just have to watch the full playlist ♥
I hope it helps!
Thanks for amazing explanation sir
you explained so clear thank you so much
this is amazing thank you!
Your explanations are so brilliant! I finally understand bremsstrahlung and characteristic radiation 😁😁 Thank you!
Yay! Thanks Bianca 🙂
Thanks a lot you made it crystal clear
Amazing video. A couple of questions. 1) if electron directly hits the nucleus(kinetic energy becomes 0) and highest photon energy is produced, does the electron that hit the nucleus dies ? or what happens to it ? disappears ? dies ? on your video, on the screen, you didn't draw any line for it or mentioned it. 2) since we know Bremsstrahlung can produce continous spectrum, can it produce gamma-rays/visible light or it can only produce x-ray ? 3) would be awesome if you could have mentioned inner and outer Bremsstrahlung as the way it's explained on the internet is super difficult. Thank you.
Loving the videos! Will likely be a full subscriber to your Q-banks in a few months before CORE. Kudos to your great work and commitment!
Thank you for your support 🤗🥰
You're better than my online tradeschool. I'll be spending some money on your material, soon.
I’m so glad you find the videos helpful 🙂
THANK U MONSIEUR
Very nice👍👍👍..
Love from Pakistan 🇵🇰🇵🇰
very clearly
Ty for this♥️
Thank you so much for your input! Finally I got it!! 😊 Just a comment on the term "Bremsstrahlung" : "Bremsen" as you said means to "break or slow down" in German and "Strahlung" is nothing else than "radiation" . So Bremsstrahlung means "Radiation slowing down". Just to mention it, in case it helps and makes sense.👋
Thanks for letting me know 🙂☺️ glad the video is helpful!
Just completed my diploma level in radiography but am understanding what i missed out in school you the best
Nice! Well done on completing your diploma! Always good to refresh once in a while
Sending gratitude, you helped a lot
Thank you Maemetja 🙏🏻
@@radiologytutorials can't see the bank of questions
2:20 - Major difference between Bremsstrahlung and characteristics radiation
Location of
1.x ray tube
2.grid
3.image intensifiers
4.transformer
5.control panel
Please tell.
incredibile spiegazione...
along the x-axis, why is the maximal keV up to 90-100? sorry i don't understand this
Are you referring to the Electron binding energy?
Thank you
Please make the vid on auto transformer and self rectification before 13 please kindly request there is exam
awesome
Helpful!
Glad to hear it Kennedi 👍🏼
Thanks...
I am Arabic students, I study in medical college.
Pleasure. Good luck with the studies!
Please can you explain why out of the 1% of Xray produced at the anode majority is Bremsstrahlung
Sure! Characteristic X-rays only occur when an electron collides with inner shell electrons in the target material. The atoms that make up the target material are large. Relatively speaking the electrons are tiny (they make up a very small proportion of the atom). Therefore, a bombarding electron is much more likely to ‘miss’ the electrons. Very few will actually collide with electrons. The majority will slow down when experiencing the attractive electromagnetic force of the nucleus - and subsequently release a bremsstrahlung radiation.
@@radiologytutorials thank you so much
Somewhere around the 6 minute mark on the bremsstrahlung diagram, you display the nucleus's positive magnetic field strength. Wouldn't each individual electron has its own negative magnetic field? I understand that could junk up the diagram and make things too complicated. I was just curious
How,i cant see the bank of question ......can u plz help m
Hi Fadhira. It should be in the first line of the description
what does p mean in the formula of the photoelectric effect probability? Thank you
density of the filter material (greek letter rho which looks like a p) :)
@@dareenjiad2246 thank you :)
Long lost memories🥲🥲thank you so so much
🙏🏻🙏🏻
🤗🤗
❤❤
Glad it was helpful 👍
الحمد لله
الله اكبر
لا اله الا الله
As a German I shudder at your pronunciation of Bremsstrahlung.
Thanks for letting me know 👍🏻
Thanks a lot you made it crystal clear
Yay, I’m glad it helped Maram 🙂
Your question bank link is not opening 😕