Linearly free graphs

In this paper we are interested in an intrinsic property of graphs which is derived from their embeddings into the Euclidean 3-space (Formula presented.). An embedding of a graph into (Formula presented.) is said to be linear, if it sends every edge to be a line segment. And we say that an embedding (Formula presented.) of a graph (Formula presented.) into (Formula presented.) is free, if (Formula presented.) is a free group. Lastly a simple connected graph is said to be linearly free if every its linear embedding is free. In the 1980s it was proved that every complete graph is linearly free, by Nicholson. In this paper, we develop Nicholson's arguments into a general notion, and establish a sufficient condition for a linear embedding to be free. As an application of the condition we give a partial answer for a question: How much can the complete graph (Formula presented.) be enlarged so that the linear-freeness is preserved and the clique number does not increase? And an example supporting our answer is provided. As the second application it is shown that a simple connected graph of minimal valency at least 3 is linearly free, if it has less than eight vertices. The conditional inequality is strict, because we found a graph with eight vertices which are not linearly free. It is also proved that for (Formula presented.) the complete bipartite graph (Formula presented.) is linearly free.