Method for adapting transition compensation

What is claimed is: 1. A method for adapting a transition compensation for operation of an internal combustion engine, which includes a combustion chamber having a first inlet opening connected to a first intake pipe, in which a first injector is situated, the combustion chamber having a second inlet opening connected to a second intake pipe, in which a second injector is situated, the method comprising: injecting a predetermined fuel quantity during normal operation of the internal combustion engine, the predetermined fuel quantity being made up of a first fuel quantity to be injected by the first injector and a second fuel quantity to be injected by the second injector; in a first test step carried out over a first internal combustion cycle, maintaining the first injector closed while injecting the predetermined fuel quantity by the second injector; in a second test step carried out over a second internal combustion cycle, injecting a first test fuel quantity by the first injector and injecting a second test fuel quantity by the second injector, wherein the first test fuel quantity and the second test fuel quantity together make up the predetermined fuel quantity; determining a lambda value change during at least one of: the first test step, or the second test step; and adapting a transition compensation using an operating condition during the normal operation of the internal combustion engine as a function of the determined lambda value change, the adapted transition compensation correcting the predetermined fuel quantity to account for deposition of fuel on walls of the first and second intake pipes. 2. The method of claim 1 , wherein during the normal operation of the internal combustion engine, the first fuel quantity injected by the first injector and the second fuel quantity injected by the second injector are equal and/or during the second test step, the first test fuel quantity injected by the first injector and the second test fuel quantity injected by the second injector are equal. 3. The method of claim 1 , wherein the lambda value change is determined at a start and/or during a course of the first and/or second test steps. 4. The method of claim 1 , wherein the transition compensation is adapted as a function of the determined lambda value change for a plurality of different operating conditions of the internal combustion engine. 5. The method of claim 4 , wherein the adapted transition compensation for the plurality of different operating conditions of the internal combustion engine is stored and then taken into account during the normal operation of the internal combustion engine. 6. The method of claim 1 , wherein the transition compensation is adapted again for at least one operating condition of the internal combustion engine when a change in emission properties of the internal combustion engine exceeds a predetermined value. 7. The method of claim 1 , wherein the transition compensation is adapted again after a predetermined time interval for a plurality of different operating conditions of the internal combustion engine. 8. The method of claim 1 , wherein the injected predetermined fuel quantity is controlled by a computer.