HSC Together Year 12 Physics: Circular Motion in a Magnetic Field

Physics

Back to other subjects

Circular Motion in a Magnetic Field

Charged particles act differently to that of an electric field. This is primarily because electrical fields are perpendicular to electrical fields.

In this post we will compare the interaction of charged particles moving in magnetic fields to the following:

  • Uniform circular motion in magnetic fields

For this, we use the following equations:

\sum F = ma = q v B = m \frac{v^2}{r}

 

Circular motion in a magnetic field

 

45,861 students have a head start...

Get exclusive HSC content & advice from our team of experts delivered weekly to your inbox!

Here’s how we help...

Holistic K-12 Tutoring

Attend our master-class workshops on how to ace your essays, assessments and exams!

Comprehensive Workshops

Attend our master-class workshops on how to ace your essays, assessments and exams!

AOS asset - Rocket

Study, Uni, Career Mentoring

Attend our master-class workshops on how to ace your essays, assessments and exams!

Senior School Workshops

Attend our master-class workshops on how to ace your essays, assessments and exams!

45,861 students have a head start...

Get exclusive study content & advice from our team of experts delivered weekly to your inbox!

AOS Website Asset 2

Looking for Academic Support?

Discover how we can help you!

AOS Website Asset 1