[" Q.4Two infinite planes each with uniform "],[" surface charge density "+sigma" are kept in such "],[" a way that the angle between them is "30" ."],[" The electric field in the region shown "],[" between them is given by: "],[qquad [" to "," y "]]

Two infinite planes each with uniform surface charge density +sigma are kept in such a way that the angle between them is 60°. The electric field in the region shown between them is given by

Two infinite planes each with uniform surface charge density +sigma are kept in such a way that the angle between them is 60°. The electric field in the region shown between them is given by

Two infinite non-conducting sheets each with uniform surface charge density sigma are kept in such a way that the angle between them is 30^(@). The electric field in the region I shown between them is

Two infinite planes each with uniform surfao charge density +sigma C/m^(2) are kept in such a wa m that the angle between them is 30°. Th electric field in the region shown between then is given by:

Three infinite planes each with uniform surface charge density + sigma are kept in such a way that the angle between any two plate is 60^(@) . The electric field at centre of triangle

Three infinite planes each with uniform surface charge density + sigma are kept in such a way that the angle between any two plate is 60^(@) . The electric field at centre of triangle

Three infinite planes each with uniform surface charge density + sigma are kept in such a way that the angle between any two plate is 60^(@) . The electric field at centre of triangle

Two infinite line charges with uniform linear charge densities + lamda & - lamda are kept in such a way that the angle between them is 30^(@). The electric field at the symmetric point P at a perpendicular distance r from each line charge is given by:

Two infinite line charges with uniform linear charge densities + lamda & - lamda are kept in such a way that the angle between them is 30^(@). The electric field at the symmetric point P at a perpendicular distance r from each line charge is given by:

Two infinite line charges with uniform linear charge densities + lamda & - lamda are kept in such a way that the angle between them is 30^(@). The electric field at the symmetric point P at a perpendicular distance r from each line charge is given by: