Paragraph for Question no. 35 and 36 Two...

Paragraph for Question no. 35 and 36 Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by – and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both the block was T. moon PQ 35 The time period of oscillation of combined mass is : (B) JET (B) ZT GOT (C) T (1) 1 / 2 VEF Advanced Enthusiysics ShoeSHIM Eng\Theory.Expo The amplitude of combined mass is :

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Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A//2 and the right spring (along with Q ) is compressed by A . Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both the blocks was T . The time period of oscillation of combined mass is

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. The time period of oscillation of combined mass is

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. The time period of oscillation of combined mass is

Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A//2 and the right spring (along with Q ) is compressed by A . Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both the blocks was T . The energy of oscillation of the combined mass is

Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A//2 and the right spring (along with Q ) is compressed by A . Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both the blocks was T . The amplitude of combined mass is

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. What is energy of osciallation of the combined mass?

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. What is energy of osciallation of the combined mass?

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. The amplitude of combined mass is

Passage II) Two identicla blocks P and Q have masses m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by A/2 and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both blocks was T. The amplitude of combined mass is

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