Home
Class 12
PHYSICS
System is shown in the figure. Velocity ...


System is shown in the figure. Velocity of sphere A is 9 `(m)/(s)`. Find the speed of sphere B.

Text Solution

Verified by Experts

When the slab is displaced by a distance `x`, the work done is `=` change in stored energy `+` work done by battery
Initial capacitance of the capacitors
`C=(epsilon_(0)lb)/(2d)+(epsilon_(0)kbl)/(2d)`
Final capacitances
`C_(1f)=(epsilon_(0)b)/(d)(l//2+x)+(epsilon_(0)bk)/(d)(l//2-x)`
`C_(2f)=(epsilon_(0)b)/(d)(l//2-x)+(epsilon_(0)bk)/(d)(l//2+x)`
Change in energy stored `= -(1)/(2)epsilon^(2)[C_(1f)-C]+(1)/(2)epsilon^(2)[C_(2f)-C]`
Work done by battery `=epsilondq`
`=epsilonxxepsilon[(C_(1f)-C)-(C_(2f)-C)]`
`:. ` Work done `=(epsilon^(2)epsilon_(0)b)/(d)x(k-1)`
Net acceleration `a=(F)/(m)=(epsilon_(0)b)/(md)(k-1)epsilon^(2)`
Motion is oscillatory but not SHM.
and, `x=(1)/(2)at^(2)`
`:. t=sqrt((2x)/(a))`
`:.` Time period `=4t`
`=sqrt((32xmd)/(epsilon_(0)b(k-1)epsilon^(2)))`
Promotional Banner

Similar Questions

Explore conceptually related problems

A system is shown in the figure. Block A moves with velocity 10m//s . The speed of the mass B will be :

A system is as shown in the figure. All speeds shown are with respect to ground. Then the speed of Block B with respect to ground is :

A system is shown in the figure. Block A is moving with 1m//s towards left. Wedge is moving with 1m//s towards right. Then speed of the block B will be :

Consider a system composed of two metallic spheres of radii r_(1) and r_(2) conneced by a thin wire and switch S as shown in the figure. Initially S is in open position. And the spheres carry charges q_(1) and q_(2) respectively. If the switch is closed, the potential of the system is

A hollow sphere is completely filled with a liquid having a density rho . The radius of the sphere is R . Now the sphere is puloled with a constant horizontal acceleration of g on a horizontal surface. Take centre of sphere as origin of coordinate system as shown in the figure. Coordinate of the point having the maximum pressure is

A solid uniformly charged ficed non-conducting sphere of total charge Q and radius R contains a tunnel of negligible diameter. If a point charge '-q' of mass 'm' is released at rest from point P as shown in figure then find out its velocity at following points (i) At the surface of sphere (ii) At the centre of the sphere

A hollow sphere is completely filled with a liquid having a density rho . The radius of the sphere is R . Now the sphere is puloled with a constant horizontal acceleration of g on a horizontal surface. Take centre of sphere as origin of coordinate system as shown in the figure. Consider points A and B as shown in the figure.

A solid sphere has combined linear and rotation motion as shown in figure. The velocity of its centre of mass when it starts pure rolling is (R = radius of sphere)

A solid sphere has combined linear and rotation motion as shown in figure. The velocity of its centre of mass when it starts pure rolling is (R = radius of sphere)

A solid sphere of radius R is rolled by a force F acting at the topo of the sphere as shown in the figure. There is no slipping and initially sphere is in the rest position, then (CM= centre of mass)