Systems and devices for adjustable door closure control

The invention claimed is: 1. A device for controlling the closing of a door, comprising: a head unit that is configured to be installed in a doorjamb or door edge, the head unit comprising: a chamber filled at least in part with a shear thickening fluid; a piston head connected to a cap, the piston head connected to a rebound shim that rotates relative to the piston head and is configured to exert pressure against the dilatant shear thickening fluid in response to movement of the cap from a force applied to the cap, wherein rotation of the rebound shim to a first position substantially aligns one or more slots of the rebound shim with one or more slots of the piston head, and rotation of the rebound shim to a second position substantially misaligns the one or more slots of the rebound shims with the one or more slots of the piston head; a plunger bushing inserted into the head unit, the plunger bushing having a cavity fluidly isolated from the chamber, the plunger bushing serving as a guide for the cap which is configured to move into the cavity in response to the force; a plunger between the cap and the piston head, the plunger bushing serving as a guide for the plunger that is configured to move the piston head into the chamber in response to the door striking the cap; a rebound guide plug connecting the rebound shim to the plunger, wherein the rebound shim is configured to rotate from the first position allowing the piston head to move into the chamber and rotate to the second position to lock the piston head from moving into the chamber, and wherein the piston head receives the plunger, a first portion of the guide plug is received in the rebound shim and in the piston head, and a second portion of the guide plug is received in the plunger. 2. The device of claim 1 , wherein the plunger bushing guides the cap and plunger into the chamber in response to the force applied to the cap, wherein the plunger bushing is fixed relative to the head unit. 3. The device of claim 2 , wherein the plunger bushing further comprises a spring within the cavity to provide mechanical resistance between the cap and the plunger bushing in response to the force applied to the cap, the plunger bushing serving as a stop for the spring. 4. The device of claim 1 , wherein the dilatant shear thickening fluid comprises a plurality of nanoparticles. 5. The device of claim 4 , wherein the plurality of nanoparticles comprises one or more of an oxide, calcium carbonate, synthetically occurring minerals, naturally occurring minerals, polymers, SiO2, polystyrene, polymethylmethacrylate, or a mixture thereof. 6. The device of claim 1 , wherein the dilatant shear thickening fluid comprises a polymeric material. 7. The device of claim 6 , wherein the dilatant shear thickening fluid comprises one or more of ethylene glycol, polyethylene glycol, ethanol, silicon oils, phenyltrimethicone, or a mixture thereof. 8. The device of claim 1 , wherein the one or more slots of the piston head are pitched such that a wider opening faces the dilatant shear thickening fluid and the slot narrows near a backside of the piston head. 9. The device of claim 8 , wherein the one or more slots of the rebound shim have an opening shape and size approximately equal to an opening shape and size of the one or more slots of the of the piston head. 10. The device of claim 9 , wherein the cap is configured to rotate such that rotation of the cap causes the rebound shim to rotate with respect to the piston head thereby adjusting the amount of resistance experienced by the piston head. 11. The device of claim 1 , wherein manually turning the cap rotates the plunger, the rebound guide plug, and the rebound shim relative to the piston head. 12. The device of claim 1 , further including a collar that receives a portion of the plunger bushing and the cap and wherein the cap slidably engages the plunger bushing and the collar when the cap moves into the plunger bushing. 13. The device of claim 1 , wherein the piston head is fixed with respect to the plunger and the chamber includes a cylindrical inner wall, and the piston head sealingly engages the inner wall of the chamber as it moves axially within the chamber. 14. The device of claim 1 , wherein the rebound shim is in front of the piston head as the plunger is pushed into the chamber due to force being applied to the cap. 15. A device for controlling the motion of an object, comprising: a head unit that includes a chamber filled at least in part with a dilatant shear thickening fluid; a piston head that is positioned in the chamber of the head unit and that moves within the head unit, wherein the piston head is connected to a rotatable cap via a plunger, wherein the piston head has at least one slot; a shim that includes at least one slot and that is connected to the piston head via the plunger, and is rotated by turning the cap and plunger relative to the piston head and wherein the piston head and shim are configured to move with respect to the dilatant shear thickening fluid in response to a force applied to the cap by an object; a plunger bushing having a cavity; and a spring arranged in the cavity, wherein the spring is configured to provide mechanical resistance between the cap and the plunger bushing in response to the force applied to the cap, and wherein the plunger bushing has one or more grooves to receive one or more O-rings to seal the chamber from the cavity or to seal an interface between the plunger rod and the plunger bushing; and a guide plug connecting the shim to the plunger, wherein the piston head receives the plunger, a first portion of the guide plug is received in the shim and in the piston head, and a second portion of the guide plug is received in the plunger. 16. The device of claim 15 , wherein the at least one slot of the piston head is pitched such that a wider opening faces the dilatant shear thickening fluid and a narrower opening is on a backside of the piston head. 17. The device of claim 15 , wherein the at least one slot of the shim has an opening shape and size approximately equal to an opening shape and size of the least one slot of the of the piston head. 18. The device of claim 15 , wherein rotation of the shim to a first position substantially aligns the at least one slot of the shim with the at least one slot of the piston head, and rotation of the shim to a second position substantially misaligns the at least one slot of the shim with the at least one slot of the piston head. 19. the device of claim 15 , wherein the shim has a D-shaped hole and is connected to the piston head by a D-shaped plug that is received in the hole of the shim. 20. The device of claim 15 , wherein the plunger bushing is fixed relative to the head unit. 21. The device of claim 15 , wherein the cavity is fluidly isolated from the chamber, the cap configured to move into the cavity in response to the force. 22. The device of claim 15 , further including a collar that receives a portion of the plunger bushing and the cap and wherein the cap slidably engages the plunger bushing and the collar when the cap moves into the plunger bushing. 23. The device of claim 15 , wherein the piston head is fixed with respect to the plunger and the chamber includes a cylindrical inner wall, and the piston head sealingly engages the inner wall of the chamber as it moves axially within the chamber. 24. The device of claim 15 , wherein the shim is in fron