a 6.00-kg ornament is held at rest by two light wires that form 30° angles with the vertical, as shown in the figure. an external force of magnitude f acts vertically downward on the ornament. the tension exerted by each of the two wires is denoted by t. a free-body diagram, showing the four forces that act on the box, is shown in the figure. if the magnitude of force f is 410 n, what is the magnitude of the tension t?

Newton's second law gives a relationship between force, mass and the acceleration of bodies, when the acceleration is zero it is called the equilibrium condition.

A free-body diagram of the forces is shown in the attachment.

Let's write the equilibrium equation for the vertical axis.

2 [tex]T_1_y[/tex] - f - W = 0

2 [tex]T_1_y[/tex] = W + f

Let's use trigonometry to find the tension, as the angle indicates that it is relative to the vertical.

cos 30 = [tex]\frac{T_1_y}{T_1}[/tex]

[tex]T_1_y[/tex] = T1 cos 30

We substitute.

2T₁ cos 30 = W + f

T₁ = m g + f / 2 cos 30

T₁ = [tex]\frac{6 \ 9.8 + 410}{2 \ cos 30}[/tex]

T₁ = 270.66 N

In conclusion using the equilibrium condition we can find the result for the tension of the cable that supports en bloc is:

The tension is: 270.66 N

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