To increase the temperature of the cold reservoir

To cool down the hot reservoir

To create energy from nothing

To convert heat into work with maximum efficiency

It is the heat rejected to the cold reservoir

It is the heat absorbed from the cold reservoir

It represents the work done by the engine

It is the heat absorbed from the hot reservoir

Reduce the temperature of both reservoirs

Create energy from a cold reservoir

Operate without any heat input

Produce more work than a Carnot engine from the same heat input

A negative number indicating loss

A positive number indicating additional work

A constant representing temperature

A variable for heat loss

To cool down the hot reservoir

To generate additional work

To reverse the flow of heat from cold to hot

To increase the efficiency of the super engine

Heat is transferred from hot to cold without work

Work is generated without any heat input

The system becomes less efficient

Heat is transferred from cold to hot without external work

It would increase the entropy of the universe

It would create a perpetual motion machine

It would decrease the efficiency of other engines

It would violate the first law of thermodynamics