The tools to prepare mechanical structures in fundamental quantum states are being rapidly developed, using both optical and electrical techniques. The first major goal of this community is to prepare and measure the quantum ground state. To accomplish this, we are preforming experiments with a mechanical resonator parametrically coupled to a electrical resonator. The mechanical resonator is a very low dissipation (Q>1M), 6 MHz, nanomechanical structure; the electrical resonator is a lithographic, low dissipation (Q=20,000), superconducting niobium, 7.5 GHz resonator. We pump this structure with carefully prepared microwave photons and demonstrate cooling of the mechanical structure of quantum occupation <N>=3.8. Our hope is that this work will lead to the formation and measurement of much more exotic and nonsensical states of simple and ordinary, mechanical structures.