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Two blocks A and B each of mass m, are connected by a massless spring of natural length L and spring constant k. The blocks are initially resting on a smooth horizontal floor with the spring at its natural length, as shown in figure. A third identical block C, also of mass m. moves on the floor with a speed v along the line joining A and B, and collides elastically with A. Then
  • a)
    The kinetic energy of the A-B system, at maximum compression of the spring, is zero
  • b)
    The kinetic energy of the A-B system, at maximum compression of the spring, is mv2/4
  • c)
    The maximum compression of the spring is 
  • d)
    The maximum compression of the spring is 
Correct answer is option 'B'. Can you explain this answer?
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Two blocks A and B each of mass m, are connected by a massless spring ...
After collision between C and A, C stope and A is moved with speed C' i.e. v. At maximum compression A and B will move with same speed V/2. Let x is maximum compression in this position k.e. of A-B system at maximum compression 
or
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Two blocks A and B each of mass m, are connected by a massless spring ...
After collision between C and A, C stope and A is moved with speed C' i.e. v. At maximum compression A and B will move with same speed V/2. Let x is maximum compression in this position k.e. of A-B system at maximum compression 
or
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Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer?
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Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? for Physics 2024 is part of Physics preparation. The Question and answers have been prepared according to the Physics exam syllabus. Information about Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for Physics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer?.
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Here you can find the meaning of Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer?, a detailed solution for Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? has been provided alongside types of Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Two blocks A and B each of mass m, are connected by a massless spring ofnatural length L and spring constant k. The blocks are initially resting on asmooth horizontal floor with the spring at its natural length, as shown in figure. Athird identical block C, also of mass m. moves on the floor with a speed v alongthe line joining A and B, and collides elastically with A. Thena)The kinetic energy of the A-B system, at maximum compression of thespring, is zerob)The kinetic energy of the A-B system, at maximum compression of thespring, is mv2/4c)The maximum compression of the spring isd)The maximum compression of the spring isCorrect answer is option 'B'. Can you explain this answer? tests, examples and also practice Physics tests.
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