Answer:
acceleration of the block connected to the pulley is
a = g
Explanation:
As we know that all pulley and string is ideal and massless
So here Tension force in the string will remain same throughout the length
So we will have
Now for the pulley on the left we can see there exist two strings upwards with tension T and one string down with same tension T
also we know that net force on the pulley is zero as it is massless
so we have
2T-T= 0
T = 0
now since Tension force is zero on this so the mass connected with other pulley will fall freely downwards
so its acceleration is equal to
This is a birthday gift for you dear Anil...
A birthday card or a tady..
I know this is looking not so good but......
Happy Birthday To You..
God Bless You .
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Answers & Comments
Answer:
acceleration of the block connected to the pulley is
a = g
Explanation:
As we know that all pulley and string is ideal and massless
So here Tension force in the string will remain same throughout the length
So we will have
Now for the pulley on the left we can see there exist two strings upwards with tension T and one string down with same tension T
also we know that net force on the pulley is zero as it is massless
so we have
2T-T= 0
T = 0
now since Tension force is zero on this so the mass connected with other pulley will fall freely downwards
so its acceleration is equal to
a = g
This is a birthday gift for you dear Anil...
A birthday card or a tady..
I know this is looking not so good but......
Happy Birthday To You..
God Bless You .