each of mass m
If three particles, each of mass M, are placed at the three corners of an equilateral triangle of side, a the force exerted by this system on another particle of mass M placed (i) at the midpoint of a side and (ii) at the centre of the triangle are respectively.
03
Oct
If three particles, each of mass M, are placed at the three corners of an equilateral triangle of side, a the force exerted by this system on another particle of mass M placed (i) at the midpoint of a side and (ii) at the centre of the triangle are respectively. a the force exerted by [...]
Three identical particles, each of mass m, are located in space at the vertices of an equilateral triangle of side length a. They are revolving in a circular orbital under mutual gravitational attraction. Find the speed of each particle.
02
Oct
Three identical particles, each of mass m, are located in space at the vertices of an equilateral triangle of side length a. They are revolving in a circular orbital under mutual gravitational attraction. Find the speed of each particle. are located in space at the vertices of an equilateral triangle of side length a. They [...]
Two particles A and B, each of mass m, are kept stationary by applying a horizontal force F = mg on particle B as shown in Fig. 6.322. Then
29
Sep
Two particles A and B, each of mass m, are kept stationary by applying a horizontal force F = mg on particle B as shown in Fig. 6.322. Then are kept stationary by applying a horizontal force F = mg on particle B as shown in Fig. 6.322. Then each of mass m Two particles [...]
Two objects A and B , each of mass m, are connected by a light inextensible string. They are restricted to move on a frictionless ring of radius R in a vertical plane (as shown in Fig. 6.304).
29
Sep
Two objects A and B , each of mass m, are connected by a light inextensible string. They are restricted to move on a frictionless ring of radius R in a vertical plane (as shown in Fig. 6.304). are connected by a light inextensible string. They are restricted to move on a frictionless ring of [...]
A smooth uniform rod of length L and mass M has two identical beads of negligible size, each of mass m, which can slide freely along the rod. Initially, the two beads are at the centre of the rod and the system is rotating with an angular velocity ω o about an axis perpendicular to the rod and passing through the midpoint of the rod (see figure). There are no external forces. When the beads reach the ends of the rod, the angular velocity of the system is
29
Sep
A smooth uniform rod of length L and mass M has two identical beads of negligible size, each of mass m, which can slide freely along the rod. Initially, the two beads are at the centre of the rod and the system is rotating with an angular velocity ω o about an axis perpendicular to [...]
Tags:
A smooth uniform rod of length L and mass M has two identical beads of negligible size ,
A solid iron sphere A rolls down an inclined plane. While an identical hollow sphere B of same mass sides down the plane in a frictionless manner. At the bottom of the inclined plane ,
each of mass m ,
the total kinetic energy of sphere A is. ,
which can slide freely along the rod. Initially ,
Two bodies, each of mass M, are kept fixed with a separation 2L. A particle of mass m is projected from the midpoint of the line joining their centres, perpendicular to the line. The gravitational constant is G. The correct statement is
20
Sep
Two bodies, each of mass M, are kept fixed with a separation 2L. A particle of mass m is projected from the midpoint of the line joining their centres, perpendicular to the line. The gravitational constant is G. The correct statement is are kept fixed with a separation 2L. A particle of mass m is [...]
Two identicle particles A and B, each of mass m, are interconnected by a spring of stiffness k. If particle B experiences a forec F and the elongation of the spring is x, the acceleration of particle B relative to particle A is equal to
22
Aug
Two identicle particles A and B, each of mass m, are interconnected by a spring of stiffness k. If particle B experiences a forec F and the elongation of the spring is x, the acceleration of particle B relative to particle A is equal to are interconnected by a spring of stiffness k. If particle [...]