Two particles each of mass `m` are connected by a light string of length `2L` as shown in the figure. A constant force `F` is applied continuoulsly at the mid`-`point of the string at right`-`angle to intial position of the string. Find the acceleration of each particle and the acceleration of approach between the particles when separation between them is `2x`

Two particles, each of mass m, are connected by a light string of length 2L as shown in A continuous force F is applied at the mid point of the string (x=0) at right angles to the initial position of the string. Show that acceleration of m in the direction at right angles to F is given by a_(x)=F/(2m)x/sqrt(L^(2)-x^(2)) where x is the perpendicular distance of one of the particles from the line of action of F. Discuss the situation when x=L

Two particles of equal masses m and m are connected by a light string of length 2l. A constant force F is applied continuously at the mid-point of the string, always along the perpendicular bisector of the straight line joining the two particles. Show that when the distance between the two particles is x, the acceleration of the particle is a = F/m = (x)/((1^2 - x^2) ^(1//2)

Two identical point masses, each of mass M are connected to one another by a massless string of length L. A constant force F is applied at the mid-point of the string. If l be the instantaneous distance between the two masses, what will be the acceleration of each mass?

As shown in the figure, two particle each of mass m tied at the ends of a light string of length 2a are kept on a frictionless horizontal surface. When the mid-point (P) of the string is pulled vertically upwards with a small but constant force F, the particles move towards each other on the surface. Magnitude of acceleration of each particle, when the separation between them becomes 2x is

A bob of mass m suspended by a light string of length L is whirled into a vertical circle as shown in the figure. What will be the trajectory of the particle if the string is cut at Point X?

A bob of mass m suspended by a light string of length L is whirled into a vertical circle as shown in the figure. What will be the trajectory of the particle if the string is cut at Point B?

Two identical blocks A and B each of mass M are connected to each other through a light string. The system is placed on a smooth horizontal floor. When a constant force F is applied horizontally on the block A, find the tension in the string.

Two identical blocks A and B each of mass M are connected to each other through a light string. The system is placed on a smooth horizontal floor. When a constant force F is applied horizontally on the block A, find the tension in the string.