then :(cord is not slipping on the pulley)
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in fig. To one end of the cord, a block of mass M is connected as shown and to other end in (a) a force of 2 Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α2 and αB , respectively, then: (cord is not slipping on the pulley)
27
Nov
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in fig. To one end of the cord, a block of mass M is connected as shown and to other end in (a) a force of 2 Mg and in (b) a block of mass 2M. Let angular acceleration [...]
Tags:
a block of mass M is connected as shown and to other end in (a) a force of 2 Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α2 and αB ,
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in fig. To one end of the cord ,
respectively ,
then :(cord is not slipping on the pulley) ,
A uniform bar AB of mass m and a ball of the same mass are released from rest from the same horizontal position. The bar is hinged at end A. There is gravity downwards. What is the distance of the point from point B that has the same acceleration as the ball, immediately after release?
26
Sep
A uniform bar AB of mass m and a ball of the same mass are released from rest from the same horizontal position. The bar is hinged at end A. There is gravity downwards. What is the distance of the point from point B that has the same acceleration as the ball, immediately after release? [...]
Tags:
a block of mass M is connected as shown and to other end in (a) a force of 2Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α A and α B ,
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord ,
respectively ,
then :(cord is not slipping on the pulley) ,
A slender rod of mass m and length L is pivoted about a horizontal axis through one end and released from rest at an angle of 30∘ above the horizontal. The force exerted by the pivot on the rod at the instant when the rod passes through a horizontal position is
26
Sep
A slender rod of mass m and length L is pivoted about a horizontal axis through one end and released from rest at an angle of 30∘ above the horizontal. The force exerted by the pivot on the rod at the instant when the rod passes through a horizontal position is a block of mass [...]
Tags:
a block of mass M is connected as shown and to other end in (a) a force of 2Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α A and α B ,
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord ,
respectively ,
then :(cord is not slipping on the pulley) ,
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord, a block of mass M is connected as shown and to other end in (a) a force of 2Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α A and α B , respectively, then :(cord is not slipping on the pulley)
26
Sep
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord, a block of mass M is connected as shown and to other end in (a) a force of 2Mg and in (b) a block of mass 2M. Let angular acceleration of [...]
Tags:
a block of mass M is connected as shown and to other end in (a) a force of 2Mg and in (b) a block of mass 2M. Let angular acceleration of the disk in A and B is α A and α B ,
A cord is wrapped on a pulley (disk) of mass M and radius R as shown in figure. To one end of the cord ,
respectively ,
then :(cord is not slipping on the pulley) ,