Three particles A, B, Care located at the comers of an equilateral triangle as shown in figure. Each of the particle is moving with velocity v. Then at the instant shown, the relative angular velocity of

Three particles of equal masses are placed at the corners of an equilateral triangle as shown in the figure. Now particle A starts with a velocity v_(1) towards line AB , particle B starts with a velocity v_(2) towards line BC and particle C starts with velocity v_(3) towards line CA . The displacement of CM of three particle A, B and C after time t will be (given if v_(1)=v_(2)=v_(3))

Find velocity of block 'B' at the instant shown in figure.

velocity time graph of a particle is shown in figure. Find displacement of the particle.

velocity time graph of a particle is shown in figure. Find displacement of the particle.

Find velocity of block 'B' at the instant shown in figure :

Let there are three equal masses situated at the vertices of an equilateral triangle, as shown in Fig. Now particle A starts with a velocity v_(1) towards line AB , particle B starts with the velocity v_(2) , towards line BC and particle C starts with velocity v_(3) towards line CA . Find the displacement of the centre of mass of the three particles A, B and C after time t . What would it be if v_(1)=v_(2)=v_(3) ?

Let there are three equal masses situated at the vertices of an equilateral triangle, as shown in Fig. Now particle A starts with a velocity v_(1) towards line AB , particle B starts with the velocity v_(2) , towards line BC and particle C starts with velocity v_(3) towards line CA . Find the displacement of the centre of mass of the three particles A, B and C after time t . What would it be if v_(1)=v_(2)=v_(3) ?