Any R relational schema* can be decomposed into multiple relations in 3NF form, given any set of dependencies on R.

If you have the following G minimal cover:

G = { X1 -> A, X2 -> A2, ..., Xn ->An}

A correct 3NF, loseless, dependency preserving decomposition can be the following:

r = {X1A1, X2A2, ..., XnAn} U {K} where K is a key of the R relation.

The r decomposition preserves the original dependencies, because each dependency projected on the decomposed parts gives you one from the original set of dependencies in the G set.

The r decomposition also results in 3NF relations.

1; K is only needed for the loseless decompostion. If you need only dependency preserving, you don't have to add it.

2; During construction of r decomposition, it is possible that some Ri part of r contains a key of the original R relation. This time you don't have to add the plus schema with the key, since the key is already included in the decomposition.

*:Must be at least 1NF form, so the attributes are atomic.

**Example for your schema and set of dependencies**

Set of dependencies:

BG->C, ABG->D, CF->A, A->C, A->G, AD->F, AD->E, AC->B

Set of candidate keys:

A, CF, BFG

A loseless, dependency preserving 3NF Decomposition:

BGC, ABGD, CFA, AC, AG, ADF, ADE, ACB

As you can see A key is already included in the decomposition so you don't have to add that.