Two particles of equal mass have velocities `2hati ms^(-1) " and " 2hatj ms^(-1)`. First particle has an acceleration `(hati+hatj) ms^(-2)` while the acceleration of the second particle is zero. The centre of mass of the two particles moves in ?

Two particle of equal mass have velocities vecv_(1)=2hati m/s and vecv_(2)=2hatj m/s. First particle has an accelration veca_(1)=(3hati+3hatj)m//s^(2) while the acceleration of the other particle is zero. The centre of mass of the two particle moved on a

Two particles of equal mass have velocities vec v_1 = 2 hat i= m//s^-1 and vec v_2 = 2hat j m//s^-1 . First particle has an acceleration vec a_1= (3 hat i+ 3 hat j) ms^-2 while the acceleration of the other particle is zero. The centre of mass of the two particles moves in a path of.

Two particles of equal masses have velocities vec v_1 = 8 hat i and vec v_2 = 8 hat j . First particle has an acceleration vec a_1 = (5 hat i + 5 hat j) ms^(-2) while the acceleration of the other particle is zero. The centre of mass of the two particles moves is a path of

Two particles of equal masses have velocities vec v_1 = 4 hat i and vec v_2 = 4 hat j . First particle has an acceleration vec a_1 = (5 hat i + 5 hat j) ms^(-2) while the acceleration of the other particle is zero. The centre of mass of the two particles moves in a path of

A particle's velocity changes from (2hat I +3 hatj) ms^(-1) in to (3 hati - 2hatj) ms^(-1) in 2s. Its average acceleration in ms^(-2) is

A particle velocity changes from (2 hati - 3hatj) ms^(-1) to (3hati - 2hatj) ms^(-1) in 2s. If its mass is 1kg, the acceleraton (ms^(-2)) is

Two particles of equal mass m are moving with velocities vhati and v((hati+hatj)/(2)) respectively. If the particles collide completely inelastically, then the energy lost in the process is

A particle is moving due to eastwards with a velocity of 5 ms^(-1) . In 10 seconds the velocity changes to 5 ms^(-1) northwards. Calculate the average acceleration of the particle in this time.