System for venting, priming and modifying a flow rate of fluid from a container

The invention claimed is: 1. An expandable container system comprising: a container; an expandable accordion style nipple attached to a first end of the container and secured by a collar, the expandable accordion style nipple being configured to prime the flow of a first fluid from the container by increasing a first volume when stretching the expandable nipple from a compressed steady position via extended pleats or folds that increase interstitial spaces to a second greater volume that creates a vacuum in the container, wherein the expandable accordion style nipple is adapted to create a counteracting compression force when the stretching is released that biases to return the expandable nipple to the compressed steady position; and a removable valve attached to a second end of the container and having an outlet passage, wherein an inlet in the valve is selectively blocked and unblocked by a portion of a finger to control an entry of a second fluid into the container. 2. The expandable container system in claim 1 , wherein the inlet in the valve is selectively blocked and unblocked to control a flow of a second fluid out of an outlet in the expandable nipple. 3. The expandable container system in claim 1 , wherein when the inlet in the valve is blocked, a pressure in the container is reduced, and a flow rate of a second fluid out of an outlet of the expandable nipple is reduced. 4. The expandable container system in claim 1 , wherein when the inlet in the valve is in an unblocked position, extending the expandable nipple generates a counteracting bias force within the container and the first fluid is drawn in through the valve, and wherein when the expandable nipple is released, the expandable nipple is biased back toward an unextended state, and an increase in pressure created by the counteracting bias force urges a second fluid to flow out of an outlet in the expandable nipple. 5. The expandable container system in claim 1 , wherein the valve is placed on a surface of the container. 6. The expandable container system in claim 1 , further comprising a cover with a fastener, wherein the cover has a first open end and a second closed end adjacent to the fastener. 7. The expandable container system in claim 6 , wherein the fastener has a curved portion adapted to receive a user's finger so that when inverting the cover for use, the cover is a bowl. 8. The expandable container system in claim 6 , wherein the cover is releasably fastened to a collar, the cover having a first locking element, and the collar having a second locking element adapted to mate with and form a secure attachment to the cover. 9. A container system comprising: a container; a dispensing element having an outlet attached by a fixed collar to a first end of the container, the outlet in the form of an expandable accordion style nipple configured to prime the flow of a first fluid from the dispensing element by increasing a first volume when stretching the expandable accordion style nipple from a compressed steady position via extended pleats or folds that increase interstitial spaces to a second greater volume that creates a vacuum in the container and create a counteracting compression force when the stretching is released that biases to return the expandable accordion style nipple to the compressed steady position; and a valve with a passage having an inlet attached to a second end of the container, wherein the inlet in the valve is selectively blocked and unblocked by a portion of a finger to control the entry of a second fluid into the container. 10. The container system in claim 9 , wherein the selectively blocking and unblocking of the inlet in the valve selectively controls a flow of a second fluid out of an orifice in the outlet. 11. The container system in claim 10 , wherein when the inlet in the valve is blocked, a pressure in the container s reduced, which in turn lowers a flow rate of the second fluid out of the orifice in the dispensing element. 12. An expandable container system comprising: a container; a collar attached to a first end of the container; an expandable accordion style nipple attached by the collar to the first end of the container, the expandable accordion style nipple adapted to increase a first volume when stretching the expandable accordion style nipple from a compressed steady position via extended pleats or folds that increase interstitial spaces to a second greater volume that creates a vacuum in the container and create a counteracting compression force when the stretching is released that biases to return the expandable accordion style nipple to the compressed steady position; and a valve attached to a second end of the container and having an outlet passage, the outer passage extending the length of an upper edge formed by the intersection of two planar surfaces, wherein an inlet in the valve is selectively blocked and unblocked by a portion of a finger to control an entry of a first fluid into the container, which in turn selectively blocks and unblocks a second fluid out of an outlet orifice in the expandable nipple. 13. The expandable container system in claim 12 , wherein when the inlet to the valve is blocked manually by a user, a pressure in the container is reduced, thereby decreasing a flow rate of the second fluid out of an orifice in the expandable nipple. 14. The expandable container system in claim 12 , wherein the valve is a one-way valve comprising: a passageway; an inlet disposed at a first end of the passageway having a circular flange; an outlet biased closed and disposed at a second end of the passageway; and a neck portion adapted to receive a peripheral edge of an aperture in the container, the neck portion having a first shoulder including a portion of the circular flange, and a second shoulder including a portion of the outlet. 15. The expandable container system in claim 12 , wherein when the inlet is in an unblocked position, a counteracting bias force is generated within the container and the first fluid is drawn in through the valve by extending the expandable nipple so that when the expandable nipple is released, the expandable nipple is biased back and is unextending, and an increase in pressure created by the counteracting bias force urges the second fluid to flow out of the outlet orifice in the expandable nipple. 16. An expandable container system comprising: a container; an expandable volume nipple attached to a first end of the container, the expandable volume nipple having an accordion style with at least one tapered pleat and configured to increase a first volume when stretching the expandable nipple from a compressed steady position to a second greater volume that creates a vacuum in the container and to create a counteracting compression force when the stretching is released that biases to return the expandable nipple to the compressed steady position; and a removable one-way valve attached to a second end of the container and having an outlet passage that is blocked and unblocked by a portion of a finger, wherein when the expandable nipple is extended, a first fluid is drawn in through the valve and a counteracting bias force is generated by the expandable nipple, so that when the expandable nipple moves in an opposite direction and is unextending, an increase in pressure created by the counteracting bias force urges a second fluid to flow out of an outlet in the expandable nipple. 17. The expandable container system in claim 16 , wherein the first fluid may also be drawn in by an infant or animal sucking on the expandab