Finding Velocity of Positive ion with Volts given.

AI Thread Summary
To find the radius of an ion's path in a magnetic field after being accelerated through a potential difference of 250 V, the relevant equation is radius = (mass x velocity) / (charge x B). The potential energy (PE) is calculated using PE = Volts x charge, which leads to the determination of velocity. The user initially miscalculated velocity but later confirmed the correct radius of 1.77 cm. The discussion emphasizes the importance of understanding potential difference in relation to energy. Ultimately, the solution was clarified and confirmed with assistance.
dkr1207
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Homework Statement



An ion is accelerated through potential diff. of 250 V, directly perpendicular to mag. field.
Find radius of the path of the ion in the field.

Given:
mass (m)=2.5 x 10^-26
charge(q)= 1.6 x 10^-19
Volts= 250 V
Mag. Field (B) = 0.50 T

Homework Equations



radius= (mass x VELOCITY)/ (charge x B)

The Attempt at a Solution



I know the answer is 1.77 cm for the radius, but i need to prove how, but i can't seem to find an equation or reason to use Volts to get Velocity in the equation.
 
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What's the definition of "potential difference"? Thinking about that should help you figure out how to use the number of volts. Hint: energy.
 
Pe

First i find PE with:

PE=Volts x charge

plug in to:

velocity=[(-2/mass) x PE]^(1/2)

seems right...

PE= 250V / 1.6 x 10^-19 C = 1.56 x 10^21 J

plug in:
and you get velocity at 3.54 x 10^23 cm/s

but when you use that number in the final radius equation, its not = to 1.77 cm (and i know that's right)
 
First i find PE with:

PE=Volts x charge

plug in to:

velocity=[(-2/mass) x PE]^(1/2)

seems right...

PE= 250V / 1.6 x 10^-19 C = 1.56 x 10^21 J

plug in:
and you get velocity at 3.54 x 10^23 cm/s

but when you use that number in the final radius equation, its not = to 1.77 cm (and i know that's right)
 
nvm... its good now, thanks for the help
 
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