Question

A 100 kg box is suspended from two ropes. The "left rope makes an angle of 20" degrees with the vertical, and the right rope makes an angle of 40 degrees. What is the tension (in Newtons) on the right rope?

Answer 1

Step-by-step explanation:

It is given that,

Mass of the box, m = 100 kg

Left rope makes an angle of 20 degrees with the vertical, and the right rope makes an angle of 40 degrees.

From the attached figure, the x and y component of forces is given by :

`T_(1x) =-T_1 cos (20)`

`T_(2x) = T_2 cos (40)`

`mg_x = 0`

`T_(1y) = T_1 sin (20)`

`T_(2y) = T_2 sin (40)`

`mg_y= -mg`

Let
`R_x` and
`R_y` is the resultant in x and y direction.

`R_x=-T_1 cos (20)+T_2 cos (40)+0`

`R_y=T_1 sin(20)+T_2 sin(40)-mg`

As the system is balanced the net force acting on it is 0. So,

`-T_1 cos (20)+T_2 cos (40)+0=0`.............(1)

`T_1 sin(20)+T_2 sin(40)-100* 9.8=0`..................(2)

On solving equation (1) and (2) we get:

`T_1=866.86\ N` (tension on the left rope)

`T_2=1063.36\ N` (tension on the right rope)

So, the tension on the right rope is 1063.36 N. Hence, this is the required solution.