Separation apparatus and methods of separating magnetic material

What is claimed is: 1. A separation apparatus comprising: a base defining a mounting surface with a length and a width, the mounting surface facing an outward direction extending along a mounting axis of the base, the base including a first pair of stops configured to inhibit a movement of a sample plate relative to the mounting surface along the width of the mounting surface; at least one magnet mounted with respect to the mounting surface of the base; and a pair of clamps configured for toolless operation, wherein the pair of clamps are spaced apart from one another along the length of the mounting surface and configured to inhibit movement of the sample plate relative to the mounting surface in the outward direction away from the mounting surface while the sample plate is positioned over the mounting surface and the at least one magnet. 2. The separation apparatus of claim 1 , wherein the pair of clamps includes a spring clip configured to be biased to an engaged position to facilitate mounting of the sample plate relative to the mounting surface to inhibit movement of the sample plate relative to the mounting surface in the outward direction, wherein the spring clip can be pivoted to a disengaged position without tools to facilitate movement of the sample plate relative to the mounting surface in the outward direction. 3. The separation apparatus of claim 1 , wherein the pair of clamps includes a jaw configured to translate along the mounting axis, and a locking device configured to lock the jaw in a desired position to inhibit movement of the sample plate relative to the mounting surface in the outward direction. 4. The separation apparatus of claim 3 , wherein the locking device comprises a thumb screw. 5. The separation apparatus of claim 4 , wherein the base includes a clamp member including an elongated slot extending along the mounting axis and defining a travel path for a shank of the thumb screw. 6. The separation apparatus of claim 3 , wherein the base includes a clamp member including an elongated groove extending along the mounting axis and defining a travel path for a mounting member of the jaw. 7. The separation apparatus of claim 1 , further including a magnetic plate comprising the at least one magnet, wherein the magnetic plate is mounted to the base such that the magnetic plate extends along the mounting surface of the base. 8. The separation apparatus of claim 7 , wherein the magnetic plate is removably mounted to the base. 9. The separation apparatus of claim 7 , wherein the first pair of stops inhibit a movement of the magnetic plate relative to the mounting surface along the width of the mounting surface. 10. The separation apparatus of claim 7 , wherein the base includes a second pair of stops that inhibit a movement of the magnetic plate relative to the mounting surface along the length of the mounting surface. 11. The separation apparatus of claim 10 , wherein each of the second pair of stops include a corresponding one of the pair of clamps. 12. The separation apparatus of claim 1 , further comprising a sample plate mounted with respect to the base with the pair of clamps, wherein the sample plate is positioned over the mounting surface and the at least one magnet. 13. A separation apparatus comprising: a base defining a mounting surface with a length and a width, the mounting surface facing an outward direction extending along a mounting axis of the base, the base including a first pair of stops configured to inhibit a movement of a sample plate relative to the mounting surface along the width of the mounting surface; at least one magnet mounted with respect to the mounting surface of the base; and a pair of clamps configured for toolless operation, wherein the pair of clamps are spaced apart from one another along the length of the mounting surface and configured to inhibit movement of the sample plate relative to the mounting surface in the outward direction away from the mounting surface in the outward direction, wherein a first one of the pair of clamps includes a spring clip configured to be biased to an engaged position to facilitate mounting of the sample plate relative to the mounting surface to inhibit movement of a first edge portion of the sample plate relative to the mounting surface in the outward direction, wherein the spring clip can be pivoted to a disengaged position without tools to facilitate movement of the first edge portion of the sample plate relative to the mounting surface in the outward direction, and wherein a second one of the pair of clamps includes a jaw configured to translate along the mounting axis, and a locking device configured to lock the jaw in a desired position to inhibit movement of a second edge portion of the sample plate relative to the mounting surface in the outward direction while the sample plate is positioned over the mounting surface and the at least one magnet. 14. The separation apparatus of claim 13 , further including a magnetic plate comprising the at least one magnet, wherein the magnetic plate is mounted to the base such that the magnetic plate extends along the mounting surface of the base. 15. The separation apparatus of claim 14 , wherein the first pair of stops inhibit a movement of the magnetic plate relative to the mounting surface along the width of the mounting surface. 16. The separation apparatus of claim 13 , further comprising a sample plate mounted with respect to the base with the pair of clamps, wherein the sample plate is positioned over the mounting surface and the at least one magnet. 17. A method of separating magnetic material within containment areas of a sample plate comprising the steps of: (I) providing a separation apparatus including a base defining a mounting surface with a length and a width, the mounting surface facing an outward direction extending along a mounting axis of the base, the separation apparatus further including at least one magnet positioned with respect the mounting surface of the base, and the separation apparatus further including a pair of clamps including a spring clip and a jaw mechanism; (II) engaging a press portion of the spring clip to force the spring clip to pivot to a disengaged position; (III) positioning the sample plate over the mounting surface and the at least one magnet, wherein each containment area is positioned within a magnetic field of the at least one magnet, wherein the sample plate includes a first edge portion and a second edge portion opposed to the first edge portion, and wherein the first edge portion is positioned with respect to the spring clip and a second edge portion positioned with respect to the jaw; (IV) clamping the first edge portion of the sample plate with the spring clip by releasing the spring clip to allow the spring clip to be biased to engage the first edge portion of the sample plate; (V) clamping the second edge portion of the sample plate with the jaw mechanism by translating a jaw of the jaw mechanism along the mounting axis to engage the second edge portion of the sample plate, and then locking the jaw from further translation along the mounting axis; and (VI) inverting the base together with the sample plate such that liquid drains from the containment areas while magnetic material remains in the containment areas under the influence of the at least one magnet. 18. The method of claim 17 , further comprising the step of engaging an outer surface of the inverted sample plate against an absorbent material after step (VI). 19. The method of claim 17 , further c