-Le gradient de $ J $ : $ \nabla J(x,y,z) = (\frac{\partial J}{\partial x}(x,y,z),\frac{\partial J}{\partial y}(x,y,z),\frac{\partial J}{\partial z}(x,y,z)) = $
+Le gradient de $ g $ : $$ \nabla g(x,y,z) = (\nabla g_1(x,y,z),\nabla g_2(x,z,z)) $$
+$$ = ((\frac{\partial g_1}{\partial x}(x,y,z),\frac{\partial g_1}{\partial y}(x,y,z),\frac{\partial g_1}{\partial z}(x,y,z)),(\frac{\partial g_2}{\partial x}(x,y,z),\frac{\partial g_2}{\partial y}(x,y,z),\frac{\partial g_2}{\partial z}(x,y,z)) $$
+$$ = ((2x,2y,0),(2x,0,2z)). $$