Power pack remaining capacity level detection

What is claimed is: 1. A method for determining a remaining capacity state, the method comprising: determining, during discharge of a power pack, a first ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a first time duration, the first time duration comprising a first time point; determining, during discharge of the power pack, a second ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a second time duration, the second time duration comprising a second time point, the second time point being subsequent to the first time point; determining that the second ratio is greater than the first ratio; indicating, based on determining that the second ratio is greater than the first ratio, that a power pack remaining capacity level is near depletion; determining a power pack temperature is within a first range at the first time point and at the second time point: determining, while the power pack temperature is within the first range, a third ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a third time duration, the third time duration comprising a third time point, the third time point being subsequent to the second time point; and indicating, in response to determining that the third ratio is less than the second ratio, and further in response to determining that the power pack temperature is within the first range during the first time duration and during the second time duration, that the power pack remaining capacity level is a low remaining capacity level, the low remaining capacity level corresponding to a greater level of remaining capacity than the remaining capacity level is near depletion. 2. The method of claim 1 , wherein the determining that the second ratio is greater than the first ratio further determines that the second ratio is greater than a sum of the first ratio and a threshold, the threshold being dependent upon a time duration between the first time point and the second time point. 3. The method of claim 1 , wherein the first range includes a range between at least 10 degrees Celsius and 60 degrees Celsius. 4. The method of claim 1 , wherein the indicating is in response to determining a sum of the third ratio and a threshold is less than the second ratio. 5. The method of claim 4 , wherein the threshold is dependent upon the temperature of the power pack. 6. The method of claim 1 , further comprising: determining a first power pack temperature is within a second range at the first time point and at the second time point; determining an estimated power pack remaining capacity is above a low capacity threshold; determining, while the power pack has a temperature within the second range, a third ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a third time duration, the third time duration comprising a third time point, the third time point being subsequent to the second time point; and indicating, in response to determining that the third ratio is less than the second ratio and that the estimated power pack remaining capacity is above the low capacity threshold, that a power pack has a mid-range remaining capacity level, the mid-range remaining capacity level being greater than a low remaining capacity level. 7. The method of claim 6 , wherein the second range includes a range between at least 30 degrees Celsius and 60 degrees Celsius. 8. An apparatus for determining a remaining capacity state, the apparatus comprising: a capacity monitor adapted to: determine, during discharge of a power pack, a first ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a first time duration, the first time duration comprising a first time point; determine, during discharge of the power pack, a second ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a second time duration, the second time duration comprising a second time point, the second time point being subsequent to the first time point; determine that the second ratio is greater than the first ratio; indicate, based on determining that the second ratio is greater than the first ratio, that a power pack remaining capacity level is near depletion; determine a power pack temperature is within a first range at the first time point and at the second time point; determine, while the power pack temperature is within the first range, a third ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a third time duration, the third time duration comprising a third time point, the third time point being subsequent to the second time point; and indicate, in response to determining that the third ratio is less than the second ratio, and further in response to determining that the power pack temperature is within the first range during the first time duration and during the second time duration, that the power pack remaining capacity level is a low remaining capacity level, the low remaining capacity level corresponding to a greater level of remaining capacity than the remaining capacity level is near depletion. 9. The apparatus of claim 8 , wherein the capacity monitor is adapted to determine that the second ratio is greater than the first ratio by determines that the second ratio is greater than a sum of the first ratio and a threshold, the threshold being dependent upon a time duration between the first time point and the second time point. 10. The apparatus of claim 8 , wherein the first range includes a range between at least 10 degrees Celsius and 60 degrees Celsius. 11. The apparatus of claim 8 , wherein the capacity monitor is adapted to indicate that the power pack remaining capacity level is a low remaining capacity level is in response to determining a sum of the third ratio and a threshold is less than the second ratio. 12. The apparatus of claim 11 , wherein the threshold is dependent upon the temperature of the power pack. 13. The apparatus of claim 8 , the capacity monitor further adapted to: determine a first power pack temperature is within a second range at the first time point and at the second time point; determine an estimated power pack remaining capacity is above a low capacity threshold; determine, while the power pack has a temperature within the second range, a third ratio of a change in voltage of the power pack to a change in remaining capacity of the power pack over a third time duration, the third time duration comprising a third time point, the third time point being subsequent to the second time point; and indicate, in response to determining that the third ratio is less than the second ratio and that the estimated power pack remaining capacity is above the low capacity threshold, that a power pack has a mid-range remaining capacity level, the mid-range remaining capacity level being greater than a low remaining capacity level. 14. The apparatus of claim 13 , wherein the second range includes a range between at least 30 degrees Celsius and 60 degrees Celsius. 15. A computer program product for determining a remaining capacity state, the computer program product comprising: a computer readable storage medium having computer readable program code embodied therewith, the computer readable program code comprising instructions for: determining, during discharge of a power pack, a first ratio of a change in voltage of the power pack to a change in remaining capacity