A deuteron and an `alph-` particle are placed in an electric field. The force acting on them are `F_(1)` and `F_(2)` and their acceleration are `a_(1)` and `a_(2)` respectively, then

A deuteron and an alpha -particle are placed in an electric field.The forces acting on them are F_(1) and F_(2) and their accelerations are a_(1) and a_(2) respectively. (i) F_(1) = F_(2) (ii) F_(1) != F_(2) (iii) a_(1) = a_(2) (iv) a_(1) != a_(2)

Find the relation between acceleration a_(1) and a_(2)

In given system a_(1) and a_(2) are the accelerations of blocks 1 and 2. Then constraint relation is

Two masses are connected by a string which passes over a pulley acceleration upward at a rate A shown. If a_(1) and a_(2) be the accelerations of bodies 1 and 2 respectively then,

Two blocks are arranged as shown in figure. Find the ratio of a_(1)//a_(2) . ( a_(1) is acceleration of m_(1) and a_(2) that of m_(2))

A force F_1 acts on a particle so as to accelerate it from rest to a velocity v. The force F_1 is then replaced by F_2 which decelerates it to rest.

A force F_1 acts on a particle so as to accelerate it from rest to a velocity v. The force F_1 is then replaced by F_2 which decelerates it to rest

Two blocks A and B of the same mass are joined by a light string and placed on a horizontal surface. An external horizontal force P acts on A. The tension in the string is T. The forces of static friction acting on A and B are F_(1) and F_(2) respectively. The limiting value of F_(1) and F_(2) is F_(0) . As P is gradually increased.

The displacement x of a particle along a straight line at time t is given by x = a_(0) +a_(1)t + a_(2)t ^(2) . The acceleration of the particle is

Find the relation between acceleration of blocks a_(1), a_(2) and a_(3) .