Active deployable bi-level spoiler architecture enabling full vehicle drag reduction

What is claimed is: 1. An active rear airfoil arrangement for a trailing area of a vehicle having a turbulence creating area comprising: a static rear horizontal spoiler on a rear liftgate of the vehicle and having a top surface; at least one active rear horizontal spoiler having a top surface and a bottom surface, wherein the at least one active rear horizontal spoiler is capable of moving between a stowed position and a deployed position relative to the static rear horizontal spoiler; at least one flow passage formed between the static rear horizontal spoiler and the at least one active rear horizontal spoiler when the at least one active rear horizontal spoiler moves to the deployed position thereby reducing the vehicle drag coefficient by controlling the wake of the vehicle using accelerated jetted air, wherein the at least one flow passage formed between the static rear horizontal spoiler and the at least one active rear horizontal spoiler is adjustable by moving between a stowed position, a plurality of intermediate positions and a deployed position relative to the static rear horizontal spoiler; at least one left side active spoiler and at least one right side active spoiler moveably positioned on the respective left side of a liftgate and right side of the liftgate, wherein the at least one left side active spoiler and at least one right side active spoiler are capable of moving between a stowed position and a deployed position; and at least one flow passage formed between the at least one left side active spoiler and the left side of the liftgate, thereby reducing the vehicle drag coefficient by controlling the wake of the vehicle using accelerated jetted air wherein the at least one flow passage formed between the at least one left side active spoiler and the left side of the liftgate is adjustable to one of the stowed position, the deployed position and a plurality of intermediate positions between the stowed position and the deployed position; at least one flow passage formed between the at least one right side active spoiler and the right side of the liftgate, thereby reducing the vehicle drag coefficient by controlling the wake of the vehicle using accelerated jetted air wherein the at least one flow passage formed between the at least one right side active spoiler and the right side of the liftgate is adjustable to one of the stowed position, the deployed position and a plurality of intermediate positions between the stowed position and the deployed position. 2. The active rear airfoil arrangement of claim 1 wherein the at least one flow passage formed between the static rear horizontal spoiler and the at least one active rear horizontal spoiler has an inlet, an outlet and a pathway defined by a bottom surface of the active rear horizontal spoiler and a top surface of the static spoiler and two moveable side supports, wherein the pathway is tapered such that the inlet is larger than the outlet. 3. The active rear airfoil arrangement of claim 2 further comprising: wherein the at least one flow passage between the at least one left side active spoiler and the left side of the liftgate has an inlet, an outlet and a pathway defined by an outer surface of the at least one left side active spoiler and the bottom surface of the at least one left side active spoiler and two moveable side supports, wherein the pathway is tapered such that the inlet is larger than the outlet; and wherein the at least one flow passage between the at least one right side active spoiler and the right side of the liftgate has an inlet, an outlet and a pathway defined by an outer surface of the at least one right side active spoiler and the bottom surface of the at least one right side active spoiler and two moveable side supports, wherein the pathway is tapered such that the inlet is larger than the outlet. 4. The active rear airfoil arrangement of claim 1 further comprising: at least one telltale sensor located on the static rear horizontal spoiler for detecting air speed flowing through the at least one flow passage formed between the static rear horizontal spoiler and the at least one active horizontal spoiler, wherein the at least one telltale sensor located on the static rear horizontal spoiler provides air speed data that is used by a control unit to calculate and move the at least one active rear horizontal spoiler thereby actively adjusting the size of the at least one air flow passage formed between the static rear horizontal spoiler and the at least one active rear horizontal spoiler. 5. The active rear airfoil arrangement of claim 4 further comprising: at least one telltale sensor located on the left side of the liftgate for detecting air speed flowing through the at least one flow passage formed between the left side of the liftgate and the at least one left side active spoiler, wherein the at least one telltale sensor located on the left side of the liftgate provides air speed data that is used by a control unit to calculate and move the at least one left side active spoiler thereby actively adjusting the size of the at least one air flow passage formed between the left side of the liftgate and the at least one left side active spoiler; and at least one telltale sensor located on the right side of the liftgate for detecting air speed flowing through the at least one flow passage formed between the right side of the liftgate and the at least one right side active spoiler, wherein the at least one telltale sensor located on the right side of the liftgate provides air speed data that is used by a control unit to calculate and move the at least one right side active spoiler thereby actively adjusting the size of the at least one air flow passage formed between the right side of the liftgate and the at least one right side active spoiler. 6. The active rear airfoil arrangement of claim 1 further comprising: at least one telltale sensor located on the left side of the liftgate for detecting air speed flowing through the at least one flow passage formed between the left side of the liftgate and the at least one left side active spoiler, wherein the at least one telltale sensor located on the left side of the liftgate provides air speed data that is used by a control unit to calculate and move the at least one left side active spoiler thereby actively adjusting the size of the at least one air flow passage formed between the left side of the liftgate and the at least one left side active spoiler; and at least one telltale sensor located on the right side of the liftgate for detecting air speed flowing through the at least one flow passage formed between the right side of the liftgate and the at least one right side active spoiler, wherein the at least one telltale sensor located on the right side of the liftgate provides air speed data that is used by a control unit to calculate and move the at least one right side active spoiler thereby actively adjusting the size of the at least one air flow passage formed between the right side of the liftgate and the at least one right side active spoiler. 7. The active rear airfoil arrangement of claim 1 further comprising, a pocket formed in the static rear horizontal spoiler that the at least one active rear horizontal spoiler nests in when moved to the stowed position. 8. The active rear airfoil arrangement of claim 1 further comprising, at least one actuator contained in the static rear horizontal spoiler and connected to the at least one active rear horizontal spoiler for moving the at least one active rear horizontal spoiler between the stowed position, the deployed position and one of the plurality of intermediate positions. 9. The active rear airfoil arrangement of claim 8 further comprising: at