Answer:
The tension in the rope is 229.37 N.
Explanation:
Given:
Mass of the block is, [tex]m=33.2\ kg[/tex]
Coefficient of static friction is, [tex]\mu = 0.214[/tex]
Angle of inclination is, [tex]\theta = 31.5[/tex]°
Draw a free body diagram of the block.
From the free body diagram, consider the forces in the vertical direction perpendicular to inclined plane.
Forces acting are [tex]mg\cos \theta[/tex] and normal [tex]N[/tex]. Now, there is no motion in the direction perpendicular to the inclined plane. So,
[tex]N=mg\cos \theta\\N=(33.2)(9.8)\cos (31.5)\\N=277.415\ N[/tex]
Consider the direction along the inclined plane.
The forces acting along the plane are [tex]mg\sin \theta[/tex] and frictional force, [tex]f[/tex], down the plane and tension, [tex]T[/tex], up the plane.
Now, as the block is at rest, so net force along the plane is also zero.
[tex]T=mg\sin \theta+f\\T=mg\sin \theta +\mu N\\T= (33.2)(9.8)(\sin (31.5)+(0.214\times 277.415)\\T= 170+59.37\\T=229.37\ N[/tex]
Therefore, the tension in the rope is 229.37 N.
