A long string attached to a mass M forms a simple pendulum. The string, however, is weak enough so that it is likely to break at some point in the oscillation if you let it swing. You pull the mass back and start it oscillating. ar v 7 0 q At what point in the cycle is the string most likely to break? 1. Just after release. 2. Just when the mass passes through the point where the string is vertical. 3. Just after the mass turns around to re- turn. 4. Just after the mass returns to the starting point. 5. It is equally likely to break at all posi- tions.

A long string attached to a mass M forms a simple pendulum. The string, however, is weak enough so that it is likely to break at some point in the oscillation if you let it swing. You pull the mass back and start it oscillating. ar v 7 0 q At what point in the cycle is the string most likely to break? 1. Just after release. 2. Just when the mass passes through the point where the string is vertical. 3. Just after the mass turns around to re- turn. 4. Just after the mass returns to the starting point. 5. It is equally likely to break at all posi- tions.

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Question

3:25
1 Search
A long string attached to a mass M forms
a simple pendulum. The string, however, is
weak enough so that it is likely to break at
some point in the oscillation if you let it swing.
You pull the mass back and start it oscillating.
ack
the
сar
ad?
v 70 q
At what point in the cycle is the string most
likely to break?
at a
1. Just after release.
2. Just when the mass passes through the
point where the string is vertical.
3. Just after the mass turns around to re-
turn.
4. Just after the mass returns to the starting
point.
inting
5. It is equally likely to break at all posi-
tions.

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