i hope the springs don't lose their elasticity50 meters?
that happens when you frame your own values...maybe you're right..
This comment has been removed by the author.
YOU ARE RIGHT AMRIT.I AM ALSO GETTING THE SAME.ANUJ SIR REPLY QUICKLY ABOUT CORRECTNESS???????
please reply bhaiya,so that i will look after again if incorrect
I AM GETTING 100.I USE g=10m/sec^2.
bhaiya please give wedge problem solution if the answer is SecA
getting same as sambhav 50
50 m...is the correct ans..
bhaiya why we dont apply energy conservation to get amplitude 2mg/Keq ????????????please explain>>>>>
that will give you the max elongation of the spring...amplitude is the elongation from the 'mean position'a really nice question i must say..!
sambhav here the mean position IS attained when Keqx=mg???IS THIS CORRECT.
yes...nd then subtract the two value to get the amp of the BLOCK
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i hope the springs don't lose their elasticity
ReplyDelete50 meters?
that happens when you frame your own values...
ReplyDeletemaybe you're right..
This comment has been removed by the author.
ReplyDeleteYOU ARE RIGHT AMRIT.I AM ALSO GETTING THE SAME.ANUJ SIR REPLY QUICKLY ABOUT CORRECTNESS???????
ReplyDeleteplease reply bhaiya,so that i will look after again if incorrect
ReplyDeleteThis comment has been removed by the author.
ReplyDeleteI AM GETTING 100.I USE g=10m/sec^2.
ReplyDeletebhaiya please give wedge problem solution if the answer is SecA
ReplyDeletegetting same as sambhav 50
ReplyDelete50 m...is the correct ans..
ReplyDeletebhaiya why we dont apply energy conservation to get amplitude 2mg/Keq ????????????please explain>>>>>
ReplyDeletethat will give you the max elongation of the spring...
ReplyDeleteamplitude is the elongation from the 'mean position'
a really nice question i must say..!
sambhav here the mean position IS attained when Keqx=mg???IS THIS CORRECT.
ReplyDeleteyes...nd then subtract the two value to get the amp of the BLOCK
ReplyDelete