A magnetic field `4xx10^(-3) hat k` T exerts a force `(4 hat i + 3 hat j) xx10^(-10)` N on a particle having a charge `10^(-9)` C and going on the XY plane The velocity of the particle is

A magnetic field 4xx10^(-3) kT exerts a force (4 hat I + 3 hat j) xx10^(10) N on a particle having a charge 10^(-9) C and going on the XY plane The velocity of the particle is

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 8hatkmT exerts a force of (4.0hati+3.0hatj)xx10^(-10)N on a particle having a charge of 5xx10^(-10)C and going in the 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.

The force 7 hat i+ 3 hat j - 5 hat k acts on a particle whose position vector is hat i- hat j + hat k . What is the torque of a given force about the origin ?

Two vector forces (2hat i+hat j+3hat k) and (3hat i+hat j-hat k) are acted on a particle.Find the angle between the resultant force to the XY- plane.

Given four forces : vec F_1 = 3 hat i - hat j + 9 hat k vec F_2 = 2 hat i - 2 hat j + 16 hat k vec F_3 = 9 hat i + hat j + 18 hat k vec F_4= hat i + 2 hat j - 18 hat k If all these forces act on a particle at rest at the origin of a coordinate system, then identify the plane in which the particle would begin to move ?

A particle with charge -5.60 nC is moving in a uniform magnetic field vec B = -(1.25T) hat k. The magnetic force on the particle is measured to be vec F = -(3.36 xx 10^-7 N) hat i + (7.42 xx 10^-7 N) hat j. a. Calculate all components of the velocity of the particle from this information. b. Are there components of the velocity that cannot be determined by the measurement of the force? Explain. c. Calculate the scalar product vec v . vec F. What is the angle between v and F?