Why isn't $V= V_1 + V_2$? $V=V_a - V_c = V_a - V_b + V_b - V_c$, $V_a - V_b= V_1$ and $V_b - V_c = V_2$ Doesn't that prove that $V = V_1 + V_2$?
Regardless of $V_3$,
If i'm wrong , is there a way to obtain $V$ in terms of $V_1$, $V_2$ and $V_3$
Why isn't $V= V_1 + V_2$? $V=V_a - V_c = V_a - V_b + V_b - V_c$, $V_a - V_b= V_1$ and $V_b - V_c = V_2$ Doesn't that prove that $V = V_1 + V_2$?
Regardless of $V_3$,
If i'm wrong , is there a way to obtain $V$ in terms of $V_1$, $V_2$ and $V_3$
I am studying Statics and saw that: The moment of a force about a given axis (or Torque) is defined by the equation: $M_X = (\vec r \times \...
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