Magnetic Field Given Radius and Energy

AI Thread Summary
To determine the magnetic field in interstellar space for a cosmic-ray proton with an energy of 21.5 MeV and a circular orbit radius of 1.50 x 10^11 m, the relevant formula involves the relationship between magnetic force and centripetal force. The current (I) is the unknown, and the kinetic energy can be used to find the proton's velocity (v). If the calculated velocity exceeds half the speed of light, the relativistic kinetic energy formula should be applied. The term MeV refers to "million electron-volts," with 1 MeV equivalent to 1.6 x 10^-13 Joules. Understanding these concepts is crucial for solving the problem accurately.
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Homework Statement



A cosmic-ray proton in interstellar space has an energy of 21.5 MeV and executes a circular orbit having a radius equal to that of Earth's orbit around the Sun (1.50 X 10^11 m). What is the magnetic field in that region of space?


Homework Equations


B=(Mo)(I)/ (2pie)(r)
Mo= 4pie X 10^-7

The Attempt at a Solution


My unknown is I which is the current. I am unsure how to use the energy given to find the current.
 
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I think you have the wrong formula!
This is a an orbital motion problem. Ask yourself what provides the centripetal force that makes the proton go around a circle. Of course it is Fm, the magnetic force, so you will then write
Fc = Fm
Fill in the detailed formulas and solve for the B.
 
ok but don't I still have to find the value for v?
 
Yes. You know the kinetic energy, so you should be able to find v using the kinetic energy formula. If you find the v is more than half the speed of light using the regular KE formula, you should switch to the relativistic KE formula (if you have taken it in your course).
 
I am totally confused. I am not even sure what MeV means.
 
MeV means "million electron-volts". If you look up "electron volt" you will find it is 1.6 x 10^-19 Joules.
 

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