[" Consider the situation shown in figure.In different "],[" cases calculate (a) the acceleration of the "1.0kg],[" blocks,(b) the tension in the string connecting the "],[1.0kg" blocks and ( "c)" the tension in string attachel "],[" to "0.50kg" ."],[" 1.0"kg" ."],[[" 1.0kg "],[" case "1:mu_(1)=0.2,mu_(2)=0.5]],[" Casell: "mu_(1)=0.2,mu_(2)=0.5]

1.Consider the situation shown in figure (6-E2).Calculate (a) the acceleration of the 1*0kg blocks,(b) the tension in the string connecting the 1.0kg blocks and (c) the tension in the string attached to 0.50kg .

Consider the situation shown in figure. Calculate a. the acceleration of the 1.0 kg blocks, b. the tension in the strilng connecting the 1.0 kg blocks and c. the tension in the stting attached to 0.50 kg.

Consider the situation shown in figure. Calculate a. the acceleration of the 1.0 kg blocks, b. the tension in the strilng connecting the 1.0 kg blocks and c. the tension in the stting attached to 0.50 kg.

Consider the situation shown in figure. Calculate a. the acceleration of the 1.0 kg blocks, b. the tension in the strilng connecting the 1.0 kg blocks and c. the tension in the stting attached to 0.50 kg.

Find out the acceleration of 2kg block in the figures shown at the instant 1kg block falls from 2kg block ( at t = 0 )

Consider the situation as shown in the figure. If mu_(1) is the friction coefficient between block A and incline and mu_(2) is the friction coefficient between block B and incline. Find the acceleration of block A if (a) mu_(1) = (1)/(5) , mu_(2) =(2)/(5) and (b) mu_(1) = (2)/(5) , mu_(2) = (1)/(5) .

In the arrangement shown in figure coefficient of friction between 5kg block and incline plane is mu=0.5 . Friction force acting on the 5kg block is

In the arrangement shown in figure coefficient of friction between 5kg block and incline plane is mu=0.5 . Friction force acting on the 5kg block is

Figure shows two blocks in contact placed on an incline of angle theta = 30^(@) . The coefficient of friction between the block of mass 4 kg and the incline is m1, and that between 2 kg block and incline is mu_(2) . Find the acceleration of the blocks and the contact force between them if – (a) mu_(1) = 0.5 , mu_(2) = 0.8 (b) mu_(1) = 0.8 , mu_(2) = 0.5 (c) mu_(1) = 0.6 , mu_(2) = 0.1 " " [ Take g = 10m//s^(2) ]

For the given figure the acceleration of 1 kg block if string is massless and mass of pulley is 2 kg and diameter of pulley is 0.2 m :-