(B) The total mass of the system is $M = 4 \ kg + 2 \ kg + 1 \ kg = 7 \ kg$.Since the surface is frictionless,the acceleration $a$ of the system is gi

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(B) The total mass of the system is $M = 4 \ kg + 2 \ kg + 1 \ kg = 7 \ kg$.Since the surface is frictionless,the acceleration $a$ of the system is given by $a = \frac{F}{M} = \frac{14 \ N}{7 \ kg} = 2 \ m/s^2$.To find the contact force $N$ between the $4 \ kg$ and $2 \ kg$ blocks,we consider the motion of the combined $2 \ kg$ and $1 \ kg$ blocks (total mass $m' = 3 \ kg$).The force $N$ is the only horizontal force acting on this combined system of $3 \ kg$ that causes it to accelerate at $2 \ m/s^2$.Therefore,$N = m' \times a = 3 \ kg \times 2 \ m/s^2 = 6 \ N$.

Class 11 Physics Newton's Laws of Motion and Friction Motion of Body (or Connected Bodies in horizontal or vertical) (by String or Contact)

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Three blocks of masses $4 \ kg$,$2 \ kg$,and $1 \ kg$ respectively are in contact on a frictionless table as shown in the figure. If a force of $14 \ N$ is applied on the $4 \ kg$ block,the contact force between the $4 \ kg$ and the $2 \ kg$ block will be: (in $N$)

WBJEE 2012 All WBJEE

A
$2$
B
$6$
C
$8$
D
$14$

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Class 11

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Chapter

Newton's Laws of Motion and Friction

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Motion of Body (or Connected Bodies in horizontal or vertical) (by String or Contact)

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Three blocks of masses $4 \ kg$,$2 \ kg$,and $1 \ kg$ respectively are in contact on a frictionless table as shown in the figure. If a force of $14 \ N$ is applied on the $4 \ kg$ block,the contact force between the $4 \ kg$ and the $2 \ kg$ block will be: (in $N$)

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