For a circular coil of radias R and N turns carrying current I, the magnitude of the magnetic field at a point on its at a distance x from its centre is given by B=(mu_0 IR^2 N)/(2(x^2+R^2)^(1/2)) a. Show that this reduces to the familar result for field the centre of the coil . ]

For a circular coil of radias R and N turns carrying current I, the ma

1.	For a circular coil of radias R and N turns carrying current I, the magnitude of the magnetic field at a point on its at a distance x from its centre is given by B=(mu_0 IR^2 N)/(2(x^2+R^2)^(1/2)) a. Show that this reduces to the familar result for field the centre of the coil . ]
Answer» SOLUTION :` THEREFORE B = (mu_0. IR^2N)/(2(x^2 + R^2)^2)` At the CETRE , x=0 `thereforeB = (mu_0. IR^3 N)/(2R^3) = (mu_0 IN)/(2R)`. This is the expression for field at the centre of a CIRCULAR coil. b. AXIAL field , `B=(mu_0 NI R^2)/(2(R^2+x^2)^(1/3))` Here `x=R/2` `therefore B = (mu_0 NI)/(2) xx (R^2)/((R^2 +R^2/4))=(mu_0NI)/(2) xx (R^2)/(R^3(5/4)^(1/2)) = (mu_0NI)/(2R(5/4)^(1//2))` `therefore` For two coils , `B=(mu_0 NI)/(R) (4/5)^(1/2) = (0.72 mu_0NI)/(R)`

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For a circular coil of radias R and N turns carrying current I, the magnitude of the magnetic field at a point on its at a distance x from its centre is given by B=(mu_0 IR^2 N)/(2(x^2+R^2)^(1/2)) a. Show that this reduces to the familar result for field the centre of the coil . ]

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