Ask Question
18 March, 19:18

Each of 100 identical blocks siting on a frictionless surface is connected to the next bloc by a massless string. The first block is pulled with a force of 100?. a) What is the tension in the string connecting block 100 to block 99? b) What is the tension in the string connecting block 50 to block 51?

+1
Answers (1)
  1. 18 March, 21:23
    0
    A) 1 N

    B) 50 N

    Explanation:

    Let us consider that the string does not deform.

    To solve this problem lets consider the whole system as two parts. In the initial case, the first part will be de 100N being exterted to the whole system and in the second the 100 blocks system.

    In this case we can imagine as the whole system being pulled by 100 N, and therefore its acceleration will be:

    a = 100 N / (100 m)

    where m stantds for the mass of one block

    Now, the whole system and its individual parts must move with the same acceleration otherwise the string would stretch.

    Now lets consider the first part of the system as the first block, and the second part as the other 99 blocks.

    The Tension of the string pulling the 99 blocks must be so that it exterts the enough force to move that 99blocks-system at an acceleration a, since that sub-system has a mass of 99m

    T1 = 99 m * a = (99 m) * (100 N / 100 m) = 99 N

    Now lets consider an intermidiate sub-system, where the first part is made of n blocks and the second susbsystem is made of (100 - n) blocks

    Following the same logic, the tension of the corresponding string must be the acceleration of the whole systems times the mass of the second subsystem:

    Tn = (100 - n) m * (100 N / 100 m) = (100 - n) N

    a)

    Therefore the tension in the string connecting block 100 to block 99 must be

    T99 = 1 N

    b)

    And

    T50 = 50 N
Know the Answer?
Not Sure About the Answer?
Find an answer to your question ✅ “Each of 100 identical blocks siting on a frictionless surface is connected to the next bloc by a massless string. The first block is pulled ...” in 📘 Physics if you're in doubt about the correctness of the answers or there's no answer, then try to use the smart search and find answers to the similar questions.
Search for Other Answers