Example: Magnetic Field: Difference between revisions

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<math>4.905=I * 1.2* 0.9 ~~(T*m/N) ~~ \to I=4.905/(1.2*0.9)=4.5417 ~~A</math>
<math>4.905=I * 1.2* 0.9 ~~(T*m/N) ~~ \Longrightarrow~~~ I=4.905/(1.2*0.9)=4.5417 ~~A</math>


In conclusion we would need 4.54 Amps of current flowing to the left to suspend the bar in the magnetic field.
In conclusion we would need 4.54 Amps of current flowing to the left to suspend the bar in the magnetic field.


<math> I~=~4.54 ~\hat i~~A </math>


==Review Comments and Status==

Andrew Sell- emailed 1.25.10

Kyle Lafferty- emailed 1.25.10

Latest revision as of 19:33, 25 January 2010

Problem

A Metal Rod with length 1.2 m and mass 500 g is suspended in a magnetic field of 0.9 T. Determine the current needed suspend the rod without supports.

Emec rod magneticField.png


Solution

Ampere's Force Law

For our problem we have

And we know the necessary Force to hold up the bar without the supports would be equal to the weight of the bar multiplied by the gravitational force.

We also know that the force vector will be in the direction, and B is in the direction.

So using the fact that We can conclude that the current is in the direction, and therefore flows to the left.


Substituting into Ampere's Law we are left with

Integrating from gives us


In conclusion we would need 4.54 Amps of current flowing to the left to suspend the bar in the magnetic field.



Review Comments and Status

Andrew Sell- emailed 1.25.10

Kyle Lafferty- emailed 1.25.10