This is a system consist of two blocks, masses 3M sits on a frictionless horizontal table top and connected to a spring of spring constant K and M (connected to 3M by a light, rigid string via a pulley and hanging vertically in the air. If M is released from rest at a position that the spring is un-stretched, (a) Find the kinetic energy of the hanging mass M after it has fallen down a distance
This is a system consist of two blocks, masses 3M sits on a frictionless horizontal table top and connected to a spring of spring constant K and M (connected to 3M by a light, rigid string via a pulley and hanging vertically in the air. If M is released from rest at a position that the spring is un-stretched, (a) Find the kinetic energy of the hanging mass M after it has fallen down a distance
Chapter12: Sources Of Magnetic Fields
Section: Chapter Questions
Problem 12.8CYU: Check your Understanding Repeat the calculations from the previous example for I0=0.040A .
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This is a system consist of two blocks, masses 3M sits on a frictionless horizontal table top and connected to a spring of spring constant K and M (connected to 3M by a light, rigid string via a pulley and hanging vertically in the air. If M is released from rest at a position that the spring is un-stretched,
(a) Find the kinetic energy of the hanging mass M after it has fallen down a distance h;
(b) When do blocks reach their maximum speed and what is that speed?
(c) What is the maximum displacement of the hanging block before it comes to a momentary stop?
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