A charge `q=-4 mu C` has an instantaneous velocity`vec v = (2 hat i - 3 hat j + hat k)xx10^6 ms^-1` in a uniform magnetic field `vec B = (2 hat i + 5 hat j - 3hat k)xx10^-2 T.` What is the force on the charge?

Find the magnitude of vec a give by vec a=( hat i+2 hat j-2 hat k)xx(- hat i+3 hat k)

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 charged particle has acceleration vec a = 2 hat i + x hat j in a megnetic field vec B = - 3 hat i + 2 hat j - 4 hat k. Find the value of x.

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.

Find the shortest distance between the lines vec r=( hat i+2 hat j+ hat k)+lambda( hat i- hat j+ hat k) and vec r=(2 hat i- hat j- hat k)+mu(2 hat i+ hat j+2 hat k)

if vec a = 2 hat i- 3 hat j+hat k and vec b = hat i+2 hat j- 3hat k then vec aXvec b is

Show that the point A , B and C with position vectors vec a =3 hat i - 4 hat j -4 hat k vec b = 2 hat i j + hat k and vec c = hat i - 3 hat j - 5 hat k , respectively form the vertices of a right angled triangle.

Find the sum of vectors vec a= hat i-2 hat j+ hat k ,\ vec b=-2 hat i+4 hat j+5 hat k\ a n d\ vec c= hat i-6 hat j-7 hat kdot

Find vec a.( vec bxx vec c)\ if\ vec a=2 hat i+ hat j+3 hat k ,\ vec b=- hat i+2 hat j+ hat k\ a n d\ vec c=3 hat i+ hat j+2 hat kdot