L> Magnetic force on a Current-Carrying WireMagnetic force on a Current-Carrying Wire
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The magnetic force on a current-carrying wire is perpendicular to both the wire and the magnetic field with direction offered by the appropriate hand rule.

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function force()fh=document.forms<0>;def();ii=fh.ib.value*Math.pow(10,fh.ip.value);ll=fh.lb.value*Math.pow(10,fh.lp.value);bb=fh.bt.value;ff=ii*bb*ll;fh.fb.value=snbv(ff);fh.fp.value=snpv(ff);aa=fh.ang.value*Math.PI/180;ff2=ff*Math.sin(aa);fh.fb2.value=snbv(ff2);fh.fp2.value=snpv(ff2)function len()fh=document.forms<0>;def();ii=fh.ib.value*Math.pow(10,fh.ip.value);ff=fh.fb.value*Math.pow(10,fh.fp.value);bb=fh.bt.value;ll=ff/(ii*bb);fh.lb.value=snbv(ll);fh.lp.value=snpv(ll)function cur()fh=document.forms<0>;def();ll=fh.lb.value*Math.pow(10,fh.lp.value);ff=fh.fb.value*Math.pow(10,fh.fp.value);bb=fh.bt.value;ii=ff/(ll*bb);fh.ib.value=snbv(ii);fh.ip.value=snpv(ii);fh.i.value=display(ii)function mag()fh=document.forms<0>;def();ll=fh.lb.value*Math.pow(10,fh.lp.value);ff=fh.fb.value*Math.pow(10,fh.fp.value);ii=fh.ib.value*Math.pow(10,fh.ip.value);bb=ff/(ii*ll);fh.bt.value=display(bb);fh.bg.value=display(bb*10000)function iu(q)fh=document.forms<0>;fh.ib.value=snbv(q);fh.ip.value=snpv(q)function iu2()fh=document.forms<0>;ii=fh.ib.value*Math.pow(10,fh.ip.value);fh.i.value=display(ii)function bu(b)fh=document.forms<0>;fh.bg.value=display(b*10000);fh.bt.value=display2(b)function fu()fh=document.forms<0>;ff=fh.fb.value*Math.pow(10,fh.fp.value);aa=fh.ang.value*Math.PI/180;ff2=ff*Math.sin(aa);fh.fb2.value=snbv(ff2);fh.fp2.value=snpv(ff2)function fu2()fh=document.forms<0>;ff2=fh.fb2.value*Math.pow(10,fh.fp2.value);aa=fh.ang.value*Math.PI/180;ff=ff2/Math.sin(aa);fh.fb.value=snbv(ff);fh.fp.value=snpv(ff)function au()fh=document.forms<0>;ff=fh.fb.value*Math.pow(10,fh.fp.value);aa=fh.ang.value*Math.PI/180;ff2=ff*Math.sin(aa);fh.fb2.value=snbv(ff2);fh.fp2.value=snpv(ff2)function sn(b,p)return b*Math.pow(10,p)function snp(x)return Math.round(Math.log(x)/Math.LN10)function snb(x)return x/Math.pow(10,snp(x))function svb(b,p)n=sn(b,p);return snb(n)function svp(b,p)n=sn(b,p);return snp(n)function snbv(x)if(x.99*Math.pow(10,5))xx="...";return xxfunction display2(x)xx=x;if(x.99*Math.pow(10,6))xx="...";return xx

If the present is perpendicular come the magnetic field then the pressure is offered by the basic product:

Force = current x length x B-fieldFor present I = A = x 10^ Aand size L = x 10^ mpositioned perpendicular come a magnetic ar B = Tesla = Gaussthe force is F = x 10^ N.If the angle in between the current and magnetic field is degreesthe force is F = x 10^ N. Data may be gotten in in any of the fields. Whey you have finished entering data, click on the amount you wish to calculate in the energetic formula above. The quantities will not be required to be regular until you click a choice.


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Magnetic interactions through charge
Magnetic force applications
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