Power door opener

What is claimed is: 1. A power door opener comprising: an electric power actuator including a housing, an actuator shaft extending from the housing, and an electric motor adapted to selectively dispose the actuator shaft in either one of closed and extended positions, wherein the actuator shaft extends linearly outwardly from the housing when disposed in the extended position; a movable push plate coupled to an end of the actuator shaft in either of first and second orientations, wherein the movable push plate includes a movable pry member that extends outwardly from the movable push plate; and a fixed push plate having first and second opposing ends, wherein the first end is coupled to the housing of the electric power actuator, wherein a fixed pry member is disposed proximate the second end and extends outwardly from the fixed push plate, and wherein when the movable push plate is coupled to the end of the actuator shaft in the first orientation, the movable and fixed pry members cooperatively form a substantially continuous edge when the actuator shaft is disposed in the closed position, and when the movable push plate is coupled to the end of the actuator shaft in the second orientation, the movable and fixed pry members do not form the substantially continuous edge when the actuator shaft is disposed in the closed position. 2. The power door opener of claim 1 , wherein the electric motor is controlled by a remote controller. 3. The power door opener of claim 1 , further comprising an extension removably coupled to the electric power actuator. 4. The power door opener of claim 3 , wherein the extension includes an extension push plate disposed at a distal end of the extension. 5. The power door opener of claim 3 , wherein the extension is selected from a plurality of extensions having respective lengths. 6. The power door opener of claim 1 , wherein the movable push plate is removably coupled to the actuator shaft. 7. The power door opener of claim 1 , wherein the movable pry member is bifurcated to form an opening, and wherein when the movable push plate is coupled to the end of the actuator shaft in the first orientation, the fixed pry member is adapted to be disposed in the opening when the actuator shaft is in the closed position to form the substantially continuous edge. 8. The power door opener of claim 7 , wherein the fixed pry member is tapered from the substantially continuous edge on a side of the fixed pry member facing the electric power actuator, and the movable pry member is tapered from the substantially continuous edge on a side of the movable pry member facing away from the electric power actuator. 9. The power door opener of claim 1 , wherein the electric power actuator includes a gear mechanism adapted to be driven by the electric motor to cause selective movement of the actuator shaft between the closed and extended positions. 10. A method of opening a door using a power door opener having an electric power actuator, an actuator shaft extendable from the power actuator and being selectively movable between closed and extended positions, and an electric motor adapted to move the actuator shaft between the closed and extended positions, the method comprising: coupling a movable push plate to an end of the actuator shaft in either of first and second orientations, wherein the movable push plate includes a movable pry member that extends outwardly from the movable push plate, wherein the power door opener includes a fixed push plate having first and second opposing ends, wherein the first end is coupled to the housing of the electric power actuator, a fixed pry member is disposed proximate the second end and extends outwardly from the fixed push plate, and wherein when the movable push plate is in the first orientation, the movable and fixed pry members cooperatively form a substantially continuous edge when the actuator shaft is disposed in the closed position, and when the movable push plate is in the second orientation, the movable and fixed pry members do not form the substantially continuous edge when the actuator shaft is disposed in the closed position; when the movable push plate is disposed in the first orientation, inserting the substantially continuous edge into a space formed between the door and a door jamb; and activating the electric motor to move the actuator shaft to the extended position to cause the movable push plate to move in a direction away from the fixed push plate and the housing, thereby widening the space between the door and the door jamb to release the door from the door jamb. 11. The method of claim 10 , wherein the step of activating the electric motor includes using a remote controller to activate the electric motor. 12. The method of claim 10 , further comprising removably coupling an extension to the electric power actuator. 13. The method of claim 12 , further comprising positioning the power door opener between opposing door jambs with a distal end of the extension contacting one of the door jambs and the movable push plate contacting the opposing door jamb; and wherein step of activating the electric motor further causes the movable push plate to move away from the distal end. 14. The method of claim 12 , further comprises selecting the extension from a plurality of extensions. 15. The method of claim 10 , wherein the movable pry member is bifurcated to form an opening, and wherein when the movable push plate is coupled to the end of the actuator shaft in the first orientation, the fixed pry member is adapted to occupy the opening when the actuator shaft is in the closed position to form the substantially continuous edge. 16. The method of claim 15 , wherein the fixed pry member is tapered from the substantially continuous edge on a side of the fixed pry member facing the electric power actuator, and the movable pry member is tapered from the substantially continuous edge on a side of the movable pry member facing away from the electric power actuator. 17. The method of claim 10 , wherein activating the electric motor includes driving a gear mechanism of the electric power actuator by the electric motor.