1 Answer

Tscherg · Answer 1 · 2023-10-12T21:08:10+0000

ANSWER

$\begin{gathered} T_A=17.5N \\ T_B=12.5N \end{gathered}$

Step-by-step explanation

First, we have to make a sketch of the direction of the moments of the forces about 12m from the left in the diagram:

The sum of upward forces must be equal to the sum of downward forces. This implies that:

$\begin{gathered} T_A+T_B=20+10 \\ T_A+T_B=30N \end{gathered}$

Also, the sum of clockwise moments must be equal to the counter-clockwise moments:

$\begin{gathered} (20\cdot8)+(T_B\cdot4)=(T_A\cdot12) \\ 160+4T_B=12T_A \\ \Rightarrow12T_A-4T_B=160 \end{gathered}$

From the first equation, make TA the subject of the formula:

Substitute that into the second equation:

$\begin{gathered} 12(30-T_B)-4T_B=160 \\ 360-12T_B-4T_B=160 \\ -16T_B=160-360=-200 \\ T_B=(-200)/(-16) \\ T_B=12.5N \end{gathered}$

Substitute that into the equation for TA:

$\begin{gathered} T_A=30-12.5 \\ T_A=17.5N \end{gathered}$

Therefore, the reaction supports at TA and TB are:

$\begin{gathered} T_A=17.5N \\ T_B=12.5N \end{gathered}$

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