A magnetic field of `(4.0xx10^-3hatk)T` exerts a force `(4.0hati+3.0hatj)xx10^-10N` on a particle having a charge `10^-9C` and moving in the `x-y` plane. Find the velocity of the particle.

A magnetic field of (4.0xx10^-3hatk)T exerts a force (4.0hati+3.0hatj)xx10^-10N on a particle having a charge 10^-9C and moving in te x-y plane. Find the velocity of the particle.

A magnetic field of (4.0 X10^(-3)vec k) T exerts a force of (4.0veci +3.0vecj x 10^(-10) N on a particle having a charge of 1.0X10^(-9) C and going in the x-y plane. Find the velocity of the particle.

A charged particle carrying charge 1 mu C is moving with velocity (2 hati + 3hati + 4hatk) ms^(-1) . If an external magnetic field of (5 hati + 3hatj - 6hatk) xx 10^(-3)T exists in the region where the particle is moving then the force on the particle is vecF xx 10^(-9)N . The vector vecF is :

A beam of protons enters a uniform magnetic field of 0.3T with velocity of 4xx10^5m//s in a direction making an angle of 60^(@) with the direction of magnetic field. The path of motion of the particle will be

A charged partical having a charge of -2.0 xx 10^(-6) C is placed close to a nonconducting plate having a surface charge density 4.0 xx 10^(-6) C m^(-2). Fine the force of attraction between the particle and the plate.

A uniform magnetic field of magnitude 0.20 T exists in space from east to west what speed should a particle of mass 0.010 g and having a charge 1.0 X 10^(-5)C be projected from south to north so that it moves with a uniform velocity?

A particle of mass 2 xx 10^-5 kg moves horizontally between two horizontal plates of a charged parallel plate capacitor between which there is an electric field of 200 NC^-1 acting upward. A magnetic induction of 2.0 T is applied at right angles to the electric field in a direction normal to both vec B and vec v. If g is 9.8 ms^-2 and the charge on the particle is 10^-6 C, then find the velocity of charge particle so that it continues to move horizontally

A particle of mass 2 xx 10^-5 kg moves horizontally between two horizontal plates of a charged parallel plate capacitor between which there is an electric field of 200 NC^-1 acting upward. A magnetic induction of 2.0 T is applied at right angles to the electric field in a direction normal to both vec B and vec v. If g is 9.8 ms^-2 and the charge on the particle is 10^-6 C, then find the velocity of charge particle so that it continues to move horizontally

A charged particle moves in a magnetic field vecB=10hati with initial velocity vecu=5veci+4hatj . The path of the particle will be

Ten positively charged particles are kept fixed on the x-axis at points x=10cm, 20cm, 30cm, …, 100cm. The first particle has a charge 1.0xx 10^(-8)C , the second 8xx10^(-8) C, the third 27xx10(-8) C and so on. The tenth particle has a charge 1000xx10^(-8)C. find the magnitude of the electric force acting on a 1 C charge placed at the origin.