Current Attempt in ProgressThe magnitude J(r) of the current density in a certain cylindrical wire is given as a function of radial distance from the center of thewire's cross section as J(r) = Br, where r is in meters, J is in amperes per square meter, and B = 2.24 x 105 A/m3. This function applies outto the wire's radius of 2.00 mm. How much current is contained within the width of a thin ring concentric with the wire if the ring has aradial width of 11.5 um and is at a radial distance of 1.25 mm?NumberiUnits

Given,J(r)=BrWhere B=2.24×105 A/m3wire radius =2mmradial width d = 11.5μmradial distance r'=1.25mm

Current Attempt in Progress The magnitude J(r) of the current density in a certain cylindrical wire is given as a function of radial distance from the center of the wire's cross section as J(r) = Br, where r is in meters, J is in amperes per square meter, and B = 2.24 x 10 A/m3. This function applies out to the wire's radius of 2.00 mm. How much current is contained within the width of a thin ring concentric with the wire if the ring has a radial width of 11.5 um and is at a radial distance of 1.25 mm? Number Units

Current Attempt in Progress The magnitude J(r) of the current density in a certain cylindrical wire is given as a function of radial distance from the center of the wire's cross section as J(r) = Br, where r is in meters, J is in amperes per square meter, and B = 2.24 x 10 A/m3. This function applies out to the wire's radius of 2.00 mm. How much current is contained within the width of a thin ring concentric with the wire if the ring has a radial width of 11.5 um and is at a radial distance of 1.25 mm? Number Units