Aircraft propulsion system and methods of feathering

What is claimed is: 1. An aircraft propulsion system comprising: a first airmover and a second airmover disposed coaxially; an electric motor configured to power the first airmover, wherein the first airmover includes a propeller having at least a first position configured to provide thrust to the aircraft and a second position configured to recharge a power source, wherein the second position is a reverse windmilling position in which at least one blade of the propeller is rotated about a blade axis by at least 90 degrees with respect to an operating position, the operating position corresponding to the first position configured to provide forward thrust to the aircraft, wherein the blade axis is a span-wide axis extending through an airfoil of the at least one blade; and a heat engine configured to directly power the second air mover. 2. The aircraft propulsion system of claim 1 further comprising: a third air mover; and a fourth air mover; wherein at least one of the airmovers is powered exclusively by the electric motor and at least one airmovers is powered exclusively by the heat engine. 3. An aircraft having a propulsion system according to claim 2 . 4. The aircraft propulsion system as recited in claim 1 , wherein the heat engine and the electric motor are configured to power the first air mover separately and in combination. 5. The aircraft propulsion system as recited in claim 4 , wherein the heat engine and the electric motor are configured to drive the airmover by a concentric shaft. 6. The aircraft propulsion system as recited in claim 1 , wherein the heat engine and the electric motor are arranged in an in-line drive configuration. 7. The aircraft propulsion system as recited in claim 1 , wherein the heat engine and the electric motor are connected to separate respective and dedicated gearboxes. 8. The aircraft propulsion system of claim 1 , wherein the heat engine is configured to power a first dedicated propeller and the electric motor is configured to power a second dedicated propeller. 9. An aircraft having a propulsion system according to claim 1 . 10. A method of operating an aircraft propulsion system comprising: reverse windmilling an airmover connected to electric motor, including rotating at least one blade of the airmover about a blade axis by at least 90 degrees with respect to an operating position, the operating position corresponding to the first position configured to provide forward thrust to the aircraft, wherein the blade axis is a span-wide axis extending through an airfoil of the at least one blade; recharging a power supply while reverse windmilling the airmover; and directly powering an additional airmover by a heat engine, the airmover and the additional airmover disposed coaxially. 11. The method of claim 10 , further comprising providing thrust to the aircraft by the airmover connected to the electric motor. 12. The method of claim 11 , further comprising switching from providing thrust to the aircraft to reverse windmilling of the airmover. 13. The method of claim 11 , further comprising switching from reverse windmilling to providing thrust to the aircraft by the first airmover.