Three identical blocks of mass m on a frictionless surface are connected by massless taut strings. A force Fis applied on the rightmost block as shown in the figure below so that each block moves to right with acceleration a. F T2 m T1 m Applying Newton's second law on the rightmost block: EFx - ma Applying Newton's second law on the block at the center: EFx = - T2= Applying Newton's second law on the leftmost block: EFx = ma If each block has a mass of 10 kg and is accelerating at 2 m/s2, the magnitude of the tension on the second string is T2 = N.

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Chapter1: Units, Trigonometry. And Vectors
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Three identical blocks of mass m on a frictionless surface are connected by massless taut strings. A force Fis applied on the
rightmost block as shown in the figure below so that each block moves to right with acceleration a.
F
T2
m
T1
Applying Newton's second law on the rightmost block:
EFx =
+
= ma
Applying Newton's second law on the block at the center:
EFx =
|- T2 =
Applying Newton's second law on the leftmost block:
EFx =
= ma
If each block has a mass of 10 kg and is accelerating at 2 m/s2, the magnitude of the tension on the second string is T2 =
N.
Transcribed Image Text:Three identical blocks of mass m on a frictionless surface are connected by massless taut strings. A force Fis applied on the rightmost block as shown in the figure below so that each block moves to right with acceleration a. F T2 m T1 Applying Newton's second law on the rightmost block: EFx = + = ma Applying Newton's second law on the block at the center: EFx = |- T2 = Applying Newton's second law on the leftmost block: EFx = = ma If each block has a mass of 10 kg and is accelerating at 2 m/s2, the magnitude of the tension on the second string is T2 = N.
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