JEE Advanced Physics Syllabus can be referred by the IIT aspirants to get a detailed list of all topics that are important in cracking the entrance examination. JEE Advanced syllabus for Physics has been designed in such a way that it offers very practical and application-based learning to further make it easier for students to understand every concept or topic by correlating it with day-to-day experiences. In comparison to the other two subjects, the syllabus of JEE Advanced for physics is developed in such a way so as to test the deep understanding and application of concepts.

**Q2.**A uniform magnetic field of 1.5 T exists in a cylindrical region of radius 10.0 cm, its direction being parallel to the axis along east to west. A current carrying wire in north-south direction passes through this region. The wire intersects the axis and experiences a force of 1.2 N downward. If the wire is turned from north south to northeast-southwest direction, then magnitude and direction of force is

**Q3.**A battery is connected between two points A and B on the circumference of a uniform conducting ring of radius r and resistance R. One of the arcs AB of the ring subtends an angle Î¸ at the centre. The value of the magnetic induction at the centre due to current in the ring is

Solution

**Q5. A parallel plate capacitor is moving with a velocity of 25 ms^(-1) through a uniform magnetic field of 4.0 T as shown in figure. If the electric filed within the capacitor plates is 175 NC^(-1) and plate area is 2.5×10^(-7) m^2, then the magnetic force experienced by the positive charge plate is**

**Q6.**A metallic block carrying current I is subjected to a uniform magnetic induction B as shown in the figure. The moving charges experience a force F given by …… which results in the lowering of the potential of the face ….. Assume the speed of the carriers to be v

**Q7.**From a cylinder of radiusR, a cylinder of radius R/2 is removed, as shown in figure. Current flowing in the remaining cylinder is I. Then, magnetic field strength is

**Q8.**A uniform conducting rectangle loop of sides l,b and mass m carrying current i is hanging horizontally with the help of two vertical strings. There exists a uniform horizontal magnetic filed B which is parallel to the longer side of loop. The value of tension which is least is

**Q9.**A steady current I goes through a wire loop PQR having shape of a right angle triangle with PQ=3x,PR=4 x and QR=5x. If the magnitude of the magnetic field at P due to this loop is k((Î¼0 I)/(48Ï€ x)), find the value of k

**Q10.**Two very long, straight, parallel wires carry steady currents I and –I, respectively. The distance between the wires is d. At a certain instant of time, a point charge q is at a point equidistant from the two wires, in the plane of the wires. Its instantaneous velocity v is perpendicular to this plane. The magnitude of the force due to the magnetic field acting on the charge at this instant is

Solution