Metal-oxygen primary reserve batteries with integrated oxygen generator for munitions and the like applications

What is claimed is: 1. A metal-gas battery comprising: a battery core comprising: a metal anode; a non-aqueous electrolyte; a porous cathode; and terminals for providing electrical power from the battery core; a gas generator configured to be activated by electrical power to generate a pressurized gas; and a gas container having an opening through which the generated gas can move from the gas container into the porous cathode to activate the battery core. 2. The metal-gas battery of claim 1 , wherein the battery core comprises: a first housing for hermetically sealing the metal anode, non-aqueous electrolyte and porous cathode therein; and a second housing for hermetically sealing the gas container to the first housing. 3. The metal-gas battery of claim 1 , wherein the gas generator is an oxygen candle. 4. The metal-gas battery of claim 1 , wherein the gas generator is disposed in the gas container. 5. The metal-gas battery of claim 1 , wherein the gas generator comprises a plurality of gas generators. 6. The metal-gas battery of claim 1 , wherein the gas generator is configured to be powered by an external power source. 7. The metal-gas battery of claim 1 , wherein the gas generator is configured to be powered by an inertial igniter configured to supply electrical power to the gas generator upon experiencing an acceleration having a predetermined magnitude and duration. 8. The metal-gas battery of claim 5 , wherein: the gas generator comprises first and second gas generators, the first gas generator being configured to be powered by an inertial igniter configured to supply electrical power to the first gas generator upon experiencing an acceleration having a predetermined magnitude and duration, and the second gas generator being configured to be powered by an output from the first gas generator. 9. The metal-gas battery of claim 1 , further comprising: a flap sealingly closing the opening; wherein the flap being configured to change shape from a first position sealingly closing the opening to prevent the pressurized gas from moving from the gas container into the porous cathode to a second position allowing the pressurized gas to move through the opening from the gas container into the porous cathode upon an increase in temperature in the gas container; and the flap is biased in the second position. 10. The metal-gas battery of claim 1 , further comprising: a diaphragm sealingly closing the opening; and a member movable between a first position and a second position, the member being configured to rupture the diaphragm when moved to the second position; wherein the member is biased in the first position. 11. The metal-gas battery of claim 10 , wherein the member is configured to move to the second position by an applied force to the member. 12. The metal-gas battery of claim 11 , wherein: the member includes an extending portion; and a bellows sealingly covers the extended portion, the bellows at least partially biasing the member in the first position. 13. The metal-gas battery of claim 1 , further comprising: a seal covering the opening and being movable between a sealed position preventing the pressurized gas from moving from the gas container into the porous cathode to an unsealed position allowing the pressurized gas to move through the opening from the gas container into the porous cathode; a member movable between a first position and a second position, the member being configured to move the seal into the unsealed position when the member moves to the second position; wherein the member moves to the second position upon experiencing an acceleration having a predetermined magnitude and duration. 14. The metal-gas battery of claim 13 , wherein the seal is biased in the sealed position and the member is biased in the first position. 15. The metal-gas battery of claim 1 , further comprising an energy storage device configured to receive at least a partial amount of energy generated by the battery core after the gas generator is activated. 16. The metal-gas battery of claim 1 , wherein the gas generator comprises first and second gas generators, the first gas generator being configured to activate the battery core and the energy storage device at least partially providing the received energy to operate the second gas generator. 17. The metal-gas battery of claim 16 , wherein the energy storage device is under the control of a controller. 18. The metal-gas battery of claim 1 , wherein the metal anode is lithium. 19. The metal-gas battery of claim 1 , wherein the pressurized gas is oxygen or a gas containing oxygen. 20. The metal-gas battery of claim 19 , wherein the porous cathode is a porous carbon-based cathode.