A uniform field is exists in the region directed away from the page. A charged particle, moving in the plane of the page follows a anticlockwise spiral of increasing radius as shown. True explanation is:

What is the direction of the force acting on a charged particle q, moving with a velocity vec(v) a uniform magnetic field vec(B) ?

A charged particle is moving in a circular path in uniform magnetic field. Match the following.

A charged particle always move in the direction of electric field. Is this statement true or false?

A uniform but time varying magnetic field exists in a cylindrical region as shown in the figure. The direction of magnetic field is into the plane of the paper and its magnitude is decreasing at a constant rate of 2xx10^-3T//s . A particle of charge 1muC is moved slowly along circle of radius 1m by an external force as shown in figure. The plane of the circle of radius 1m by an external force as shown in figure. The plane of he circle lies in the plane of the paper and it is concentric with the cylindrical region. The work done by the external force in moving this charge along the circle will be

There is a uniform magnetic field perpendicular to the plane of paper. A positive charged particle enters in the region perpendicularly, moves in a circle of radius a and collides inelastically at point Q to the rigid wall MN. If coefficient of restitution e = 0.5, then particle

There is a uniform magnetic field perpendicular to the plane of paper. A positive charged particle enters in the region perpendicularly, moves in a circle of radius a and collides inelastically at point Q to the rigid wall MN. If coefficient of restitution e = 0.5, then particle

The magnetic field B at all points within a circular region of the radius R is uniform space and directed into the plane of the page in figure. If the magnetic field is increasing at a rate dB//dt what are the magnitude and direction of the force on as stationary positive point charge q located at points a,b, c ? (Point a is a distance r above the centre of the region, point b is a distance r to the right to the centre and point c is at the centre of the region).

A uniform magnetic field exist in a region which forms an equilateral triangle of side a. The magnetic field is perpendicular to the plane of the triangle . A charged q enters into this magnetic field perpendicular to a side with speed v. The charge enters from midpoint and leaves the field from midpoint of other side. Magnetic induction in the triangles is

A uniform magnetic field exist in a region which forms an equilateral triangle of side a. The magnetic field is perpendicular to the plane of the triangle . A charged q enters into this magnetic field perpendicular to a side with speed v. The charge enters from midpoint and leaves the field from midpoint of other side. Magnetic induction in the triangles is

A charged particle enters a region which offers a resistance against its motion and a uniform mangetic field exists in the region. The particle traces a spiral path as shown in Fig. 1.29. State the following statements as True or False. (a) Component of magnetic field in the plane of spiral is zero. (b) Particle enters the region at Q. (c) If magnetic field is outwards, then the particle is positively charged. (d) All of these.