(B) Let $\theta$ be the angle that the string makes with the vertical in equilibrium.At equilibrium,the forces acting on the block are balanced:$1$. H

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$\tan ^{-1}\left(\frac{1}{2}\right)$

(B) Let $\theta$ be the angle that the string makes with the vertical in equilibrium.At equilibrium,the forces acting on the block are balanced:$1$. Horizontal force balance: $F = T \sin \theta$ ... $(i)$$2$. Vertical force balance: $mg = T \cos \theta$ ... (ii)Dividing equation $(i)$ by equation (ii),we get:$\frac{F}{mg} = \frac{T \sin \theta}{T \cos \theta} = \tan \theta$Given $F = 40 \ N$,$m = 8 \ kg$,and $g = 10 \ m \ s^{-2}$:$\tan \theta = \frac{40}{8 \times 10} = \frac{40}{80} = \frac{1}{2}$Therefore,$\theta = \tan ^{-1}\left(\frac{1}{2}\right)$.

Class 11 Physics Newton's Laws of Motion and Friction The Common Forces and Equilibrium of Concurrent Forces

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$A$ block of mass $8 \ kg$ is suspended by a rope of length $3 \ m$ from the ceiling. $A$ force of $40 \ N$ is applied horizontally to the block. Then the angle that the rope makes with the vertical in equilibrium is (acceleration due to gravity $= 10 \ m \ s^{-2}$,neglect the mass of the rope).

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A
$\sin ^{-1}\left(\frac{1}{2}\right)$
B
$\tan ^{-1}\left(\frac{1}{2}\right)$
C
$\sin ^{-1}\left(\frac{1}{3}\right)$
D
$\tan ^{-1}\left(\frac{1}{3}\right)$

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Newton's Laws of Motion and Friction

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The Common Forces and Equilibrium of Concurrent Forces

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$A$ block of mass $8 \ kg$ is suspended by a rope of length $3 \ m$ from the ceiling. $A$ force of $40 \ N$ is applied horizontally to the block. Then the angle that the rope makes with the vertical in equilibrium is (acceleration due to gravity $= 10 \ m \ s^{-2}$,neglect the mass of the rope).

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$A$ flexible chain of mass $m$ hangs between two fixed points at the same level. The inclination of the chain with the horizontal at the two points of support is $30^{\circ}$. Considering the equilibrium of each half of the chain,the tension of the chain at the lowest point is . . . . . . .

In the given arrangement,the normal force applied by the block on the ground is

$A$ particle moving with velocity $\overrightarrow{V}$ is acted upon by three forces represented by the vector triangle $PQR$. The velocity of the particle will

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