Draw the free body diagram of following also find the tension in each string

Draw the free body diagram of following system :

Draw labelled diagrams of the following: Brain

Draw labelled diagrams of the following: Neuron

Figure shows three identical yo-yos initially at rest on a horizontal surface. For each yo-yo the string is pulled In the direction shown. In each case there is sufficient friction for the yo-yo to roll without slipping. Draw the free-body diagram for each yo-yo in what direction will each yo-yo rotate?

A block of mass 30 kg is suspended by three string as shown in fig, Find the tension in each string.

The block of mass m is at rest. Find the tension in the string A .

A 5 kg block is placed on the top of a 15 kg block as shown in figure . A horizontal force of 60 N is applied to the 15 kg block and the 5kg block is tied to the wall . The coefficient of friction between moving surfaces is 0.2 (a) Draw the free body diagram for each block w.r.t ground and identify the action reaction forces between two blocks . (b) Determine the tension in the string and magnitude of the acceleration of the 15 kg block .

A student tries to raise a chain consisting of three identical links. Each link has a mass of 300g. The three-piece chain is connected to a string and then suspended vertically, with the student holding the upper end of the string and pulling upward. Because of the student's pull, an upward force of 12 N is applied to the chain by the string. (a) Draw a free-body diagram for each of the links in the chain and also for the entire-chain considered a single body. (b) Use the results of part(a) Newton's laws to find (i) the acceleration of the chain and (ii) the force exerted by the top link on the middle link.

A block of weight W is supported by three strings as shown in figure. Which of the following relations is true for tension in the string ? (Here, T_(1), T_(2) and T_(3) are the tension in the strings A,B and C respectively)

STATEMENT-1 : Tension at every point in a string with mass at every cross section must be unequal , if the string is accelerating . and STATEMENT - 2 : If we draw free body diagram for any section of the string , net external force acting on the string has to be equal to product of its mass ( which is non- zero ) and its acceleration .