Figure shows a block and tackle system of pulleys used to lift a load.

(a) How many strands of tackle are supporting the load?

(b) Draw arrows to represent tension T in each strand.

(c) What is the mechanical advantage of the system?

(d) When load is pulled up by a distance 1 m, how far does the effort end move?

(e) How much effort is needed to lift a load of 100 N?

(f) What will be its V.R. if the weight of the movable block is doubled?

A block and tackle system has the velocity ratio 3. Draw a labelled diagram of the system indicating the points of application and the directions of load L and effort E. A man can exert a pull of 200 kgf.

(a) What is the maximum load he can raise with this pulley system if its efficiency is 60%?

(b) If the effort end moves a distance 60 cm, what distance does the load move?

You are designing a block and tackle system for a construction site with following data set: load to be lifted = 3000 N. Maximum effort to be applied = 400 N and efficiency of system = 75%. Calculate :

(a) The minimum V.R. required.

(b) The minimum number of pulleys required.

(c) Suggest a practical pulley arrangement.

Two students submit different pulley designs A and B to lift a load of 2500 N with maximum effort 500 N and efficiency 80%. Design A has a V.R. of 5 and design B has a V.R. of 7.
Calculate the effort for each design and justify which design is better.