Rectangular coil rotating in magnetic field

AI Thread Summary
A rectangular coil with 80 turns and an area of 0.01 m² rotates at 3000 rpm in a magnetic field of 1.5 T, prompting a calculation for the rms voltage generated. The initial attempt yielded an incorrect voltage of 15√2 Vrms due to failure to convert rpm to radians per second. The correct approach involves using the formula E(max) = NBAω, where all variables must be in SI units for accurate results. After proper conversion and calculation, the correct rms voltage is determined to be 267 Vrms. Understanding the necessity of unit conversion is crucial for accurate electromagnetic calculations.
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Homework Statement



A rectangular coil of 80 turns has an area of 0.01m^2. It rotates @ 3000rpm about one of its in plane axes, in a uniform magnetic field having B=1.5T. Calculate the rms voltage generated.

Homework Equations



1 Tesla= 1 Weber/m^2.
Change in flux of 1 Weber per second = 1 Volt induced.

The Attempt at a Solution



(80*0.01*3000*1.5)/60 = change in flux of 60 Wb/s. ==> 60V. 60/[2sqrt(2)]=15sqrt(2)Vrms.

This is not the right answer. The answer is 267Vrms.
 
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3000 rpm, you need to convert that to rad/s. You didn't multiply by π.
 
rock.freak667 said:
3000 rpm, you need to convert that to rad/s. You didn't multiply by π.

I get the right answer then, but don't understand why you would do that?
 
In the formula E(max)=NBAw, B,A and w need to be in SI units (or at least derived SI units) for the units to produce the Volt on the left hand side.

So rpm would need to be converted to radians per second.
 
rock.freak667 said:
In the formula E(max)=NBAw, B,A and w need to be in SI units (or at least derived SI units) for the units to produce the Volt on the left hand side.

So rpm would need to be converted to radians per second.

OK. Many thanks.
 
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