A particle with mass 2.0mg and charge` 3.0 mu `C is in a region with uniform electric field of `(3hat i+4hat j `N/C. The acceleration of the particle will be

A particle of mass m and charge q is thrown in a region where uniform gravitational field and electric field are present. The path of particle:

A particle ( mass = m and charge = q ) is moving in a region in which there exists a uniform electric field E vec( i ) and a uniform magnetic field B hat (k) . At t = 0 , the particle is at ( 0,a ) and is moving with v hat(i) . After some time, the particle is located at ( 2a, 0 ) and has a velocity - 2 v hat( j ) , then which of the following is true ?

The acceleration of a charged particle in a uniform electric field is

A charged particle of specific charge (i.e charge per unit mass) 0.2 C/kg has velocity 2 hat(i) - 3 hat(j) (m/s) at some instant in a uniform magnetic field 5 hat(i) + 2 hat(j) (tesla). Find the acceleration of the particle at this instant

A charged particle of mass 5 mg and charge q= +2 mu C has velocity vec v = 2 hat i - 3 hat j + 4 hat k. Find out the magnetic force on the charged particle and its acceleration at this instant due to magnetic field vec B = 3 hat j - 2 hat k. vec v and vec B are in ms^-1 and Wbm^-2 , respectively.

A charged particle moves with velocity vec v = a hat i + d hat j in a magnetic field vec B = A hat i + D hat j. The force acting on the particle has magnitude F. Then,

A charged particle moves with velocity vec v = a hat i + d hat j in a magnetic field vec B = A hat i + D hat j. The force acting on the particle has magnitude F. Then,

A point charge +q_0 is projected in a magnetic field vec B= (hat i+2 hat j-3hat k) . If acceleration of the particle is vec a= (2 hat i + b hat j + hat k) then value of b will be

A particle of charge q and mass m starts moving from the origin under the action of an electric field vec E = E_0 hat i and vec B = B_0 hat i with a velocity vec v = v_0 hat j . The speed of the particle will become 2v_0 after a time.

A particle of charge q and mass m starts moving from the origin under the action of an electric field vec E = E_0 hat i and vec B = B_0 hat i with a velocity vec v = v_0 hat j . The speed of the particle will become 2v_0 after a time.