Auto-stop vent plug

I claim: 1. An intravenous delivery system, comprising: a liquid source containing a liquid; tubing, comprising: a first end connectable to the liquid source to receive the liquid from the liquid source; and a second end; and a vent cap, comprising: a proximal end connectable to the second end of the tubing to receive the liquid from the tubing; a distal end comprising a hydrophobic membrane that is substantially impermeable to the liquid and substantially permeable to air; and a chamber formed by a chamber wall, the chamber wall comprising a proximal flare that extends outwardly away from a longitudinal axis of the vent cap to increase a volume of the chamber configured to receive the liquid from the proximal end, wherein the proximal flare is positioned to contact the liquid from the proximal end, wherein the chamber is in communication with the hydrophobic membrane to facilitate passage of air from the liquid out of the vent cap through the hydrophobic membrane, wherein when the proximal end of the vent cap is connected to the second end of the tubing, the chamber is configured to hold a first volume of the liquid equal to a second volume of the liquid configured to be held in 2 inches to 15 inches of the tubing, wherein the hydrophobic membrane is positioned adjacent to the chamber; a luer lock extending from the proximal flare and having threading on an outer surface of the luer lock, wherein the luer lock comprises a female taper, wherein an inner diameter of a portion of the chamber distal the proximal flare is greater than an inner diameter of the luer lock; and a drip unit comprising a drip chamber, wherein the drip unit is connected to the liquid source to receive drops of the liquid from the liquid source within the drip chamber, wherein the drip unit is connected to the first end of the tubing to supply the liquid to the tubing via gravity feed. 2. The intravenous delivery system of claim 1 , wherein the first volume is determined by the equation V=πr 2 l, where V is the first volume, r is a radius of an interior of the tubing, and l is a length of tubing within a range of 2 inches to 15 inches. 3. The intravenous delivery system of claim 2 , wherein the first volume and the second volume are each within a range of 0.3 milliliters to 2.7 milliliters. 4. The intravenous delivery system of claim 1 , wherein the chamber wall has a generally tubular shape comprising an interior diameter within a range of 7 millimeters to 15 millimeters. 5. The intravenous delivery system of claim 1 , wherein the chamber wall has a generally tubular shape comprising a length within a range of 5 millimeters to 15 millimeters. 6. The intravenous delivery system of claim 1 , wherein the tubing comprises a tubing luer lock that mates with the vent cap luer lock. 7. The intravenous delivery system of claim 6 , wherein the chamber wall has a cross-sectional area larger than a largest cross-sectional area of the vent cap luer lock. 8. The intravenous delivery system of claim 1 , wherein the chamber wall is shaped to define an orifice adjacent to the chamber, wherein the orifice is sized such that, after detachment of the vent cap from the tubing, the orifice prevents flow of liquid out of the cap through the orifice. 9. The intravenous delivery system of claim 1 , further comprising an intravenous access unit connectable to the second end of the tubing to deliver the liquid intravenously to a patient.