Latch for a computer case

What is claimed is: 1. A computer, comprising: a first case and a second case that removably mate together to form an enclosure; a shaft attached to the first case; a hook rotatably coupled to the shaft and having an open position and a latched position, the hook including a first side and a second side; wherein the first side of the hook is engaged with a hole formed in a side wall of the second case when the hook is in the latched position and the first and second cases are mated, and where the first side of the hook is disengaged from the hole when the hook is in the open position; the second side of the hook is formed of a ferrous material and located adjacent to a side wall of the first case, wherein the hook rotates to the open position responsive to a magnet being positioned on an outside of the side wall of the first case, near the second side of the hook; and a coil spring coupled to the shaft and forcing the hook towards the latched position. 2. The computer of claim 1 , wherein the first side of the hook comprises a first part of the hook, the first part extending through the hole formed in the side wall of the second case and into a recess in the first case when the hook is in the latched position and the first and second cases are mated. 3. The computer of claim 1 , wherein the side wall of the first case does not have an opening through the side wall of the first case in an area adjacent to the latch. 4. The computer of claim 1 , wherein the side wall of the second case is between 0.5 and 3 mm in thickness, and the side wall of the first case is between 0.5 and 3 mm in thickness. 5. The computer of claim 1 , wherein the side wall of the second case and the side wall of the first case are fabricated from a non-ferrous material. 6. The computer of claim 1 , further comprising a computer component enclosed by the second case and the first case when the first and second cases are mated, where the computer component is selected from the group consisting of: a mother board, a memory, a hard disk drive, a DVD drive, and an I/O card. 7. The computer of claim 1 , wherein the second case is attached to the first case with a hinge. 8. The computer of claim 1 , further comprising: a mark or target on the outside of the side wall of the first case that indicates a location on the outside of the side wall where placement of the magnet causes rotation of the hook into the open position. 9. The computer of claim 1 , wherein the hook is rotatable about the shaft. 10. The computer of claim 1 , wherein the hook rotates to the open position responsive to the magnet being positioned near the second side of the hook outside of the side wall of the first case and outside of the second case. 11. The computer of claim 1 , wherein the first case has a bottom wall, the side wall of the first case angled with respect to the bottom wall, the shaft attached to the bottom wall of the first case, and the side wall of the first case to receive and engage the second case. 12. The computer of claim 11 , wherein the side wall of the first case is outside the side wall of the second case when the second case is received in the first case. 13. A method of manufacturing a computer, comprising forming a first case with a side wall fabricated from a non-ferrous material; forming a second case with a side wall fabricated from a non-ferrous material, wherein the first case and the second case removably mate together to form an enclosure; attaching a latch to the first case, where the latch comprises: a shaft attached to the first case, and a hook rotatably attached to the shaft, where the hook is rotatable between an open position and a latched position, the hook having a first side and a second side; wherein the first side of the hook is engaged with a hole formed in the side wall of the second case when the hook is in the latched position and the first and second cases are mated, and where the first side of the hook is disengaged from the hole when the hook is in the open position; and the second side of the hook formed of a ferrous material and located adjacent to the side wall of the first case, wherein the hook rotates to the open position responsive to a magnet positioned on an outside of the side wall of the first case, near the second side of the hook; and attaching a coil spring to the shaft that forces the hook towards the latched position. 14. The method of claim 13 , further comprising: marking a position with a mark on the outside of the side wall of the first case that indicates a location on the outside of the side wall where placement of the magnet causes rotation of the hook into the open position. 15. The method of claim 13 , wherein the first side of the hook extends through the hole formed in the side wall of the second case and into a recess in the first case when the hook is in the latched position and the first and second cases are mated. 16. The method of claim 13 , further comprising: installing a computer component into the first case, where the computer component is selected from the group of computer components consisting of: a mother board, memory, a hard disk drive, a DVD drive, and an I/O card. 17. The method of claim 13 , further comprising forming the first case with a bottom wall, the side wall of the first case angled with respect to the bottom wall of the first case, the shaft attached to the bottom wall of the first case, and the side wall of the first case to receive and engage the second case. 18. The method of claim 17 , wherein the side wall of the first case is outside the side wall of the second case when the second case is received in the first case. 19. A device comprising: a first case and a second case that removably mate together to form an enclosure; a shaft attached to the first case; a hook rotatably coupled to the shaft and having an open position and a latched position, the hook including a first part and a second part; wherein the first part of the hook is engaged with a hole formed in a side wall of the second case when the hook is in the latched position and the first and second cases are mated, and where the first part of the hook is disengaged from the hole when the hook is in the open position; wherein the second part of the hook is formed of a ferrous material, and the hook is rotatable from the latched position to the open position responsive to a magnet being positioned on an outside of the side wall of the first case; and a coil spring coupled to the shaft and forcing the hook towards the latched position. 20. The device of claim 19 , wherein the side wall of the first case comprises a recess, and wherein the first part of the hook extends through the hole formed in the side wall of the second case and into the recess of the side wall of the first case when the hook is in the latched position.