TodavΓa mΓ‘s Ecuaciones Lineales
Ejercicio 1
\[- (\frac{1}{2}x + 1) = ( 6x - \frac{1}{2} ) - \frac{43}{8}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
Ejercicio 2
\[- (-4x + \frac{3}{4}) = - ( -5x - 3 ) - \frac{53}{12}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
Ejercicio 3
\[(\frac{-1}{2}x - 1) = - ( -x + \frac{1}{4} ) - \frac{15}{4}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
Ejercicio 4
\[- (x + \frac{4}{3}) = - ( x - 4 ) - \frac{32}{3}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
Ejercicio 5
\[- (x - 1) = - ( x + 1 ) + \frac{11}{4}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
Ejercicio 6
\[(x - 4) = - ( x - \frac{2}{3} ) - \frac{50}{3}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]
\[x = \boxed{\phantom{\rule{2em}{1.2em}}}\]