Drivetrain for a motor vehicle, and method for operating a drivetrain of said type

We claim: 1. A drivetrain having a first clutch, which has an input side and an output side which is selectively connectable in terms of rotational drive to the input side, and having a transmission, which has a transmission shaft which is connected or connectable in terms of rotational drive to the output side and which is selectively connectable in terms of rotational drive to a gearwheel by means of a second clutch, wherein a rotor of an electric machine is arranged on the output side, and the electric machine, in motor operation, can be controlled or regulated so as to cause the rotational speeds of the transmission shaft and of the gearwheel to be approximated to or aligned with one another before the closure of the second clutch, wherein the second clutch operates without a synchronizing body. 2. The drivetrain as claimed in claim 1 , further comprising means for directly or indirectly detecting the rotational speed of the transmission shaft and of the gearwheel, said means interacting with a control or regulation device of the electric machine such that the difference between the rotational speed of the transmission shaft and the rotational speed of the gearwheel can be reduced or eliminated. 3. The drivetrain as claimed in claim 1 , wherein the rotor is arranged on the outside of the first clutch in a radial direction or is in a nested arrangement with the first clutch in a radial direction. 4. The drivetrain as claimed in claim 1 , wherein the first clutch is in the form of a multiplate clutch, the output side of which is preferably in the form of an outer plate carrier, wherein the rotor is particularly preferably arranged on a plate-holding section of the outer plate carrier or in a nested arrangement with a plate pack of the multiplate clutch in a radial direction. 5. The drivetrain as claimed in claim 1 , wherein the first clutch comprises at least one of a starting separating clutch or a normally closed clutch. 6. The drivetrain as claimed in claim 1 , wherein the first clutch is a wet-running clutch, the first clutch is arranged in a wet chamber, wherein the wet chamber is delimited by a static transmission housing bell or by a co-rotating clutch housing, and the clutch housing is arranged within a transmission housing bell so as to separate a dry chamber, in which a stator of the electric machine is arranged, from the wet chamber. 7. The drivetrain as claimed in claim 1 , wherein the first clutch is assigned a spring device, for applying the closing force. 8. The drivetrain as claimed in claim 1 , wherein the first clutch is assigned a possibly hydraulic actuating device which is configured so as to be static or fixed with respect to a housing and which is decoupled in terms of rotational drive from the first clutch or from a spring device, by way of a disengagement bearing. 9. The drivetrain as claimed in claim 7 , wherein a closing force of the spring device and/or an actuating force of an actuating device is supportable or supported on a transmission housing or transmission housing cover, on an output shaft, which is connected in terms of rotational drive to the input side, of a drive unit, or on the transmission shaft. 10. The drivetrain as claimed in claim 1 , wherein the transmission comprises an automated manual transmission or an automatic transmission. 11. The drivetrain as claimed in claim 1 , wherein the transmission includes at least one gear set forming a forward gear, wherein the transmission can, by means of the same gear set, be operated in a reverse gear by way of the electric machine, preferably exclusively by way of the electric machine, or by reversal of the rotational direction of the rotor. 12. A method for performing gearshifts in a transmission within a drivetrain having a first clutch which has an input side and an output side, a transmission, which has a transmission shaft which is connected or connectable in terms of rotational drive to the output side and which is selectively connectable in terms of rotational drive to a gearwheel by means of a second clutch, wherein a rotor of an electric machine is arranged on the output side, and the electric machine comprising: opening the first clutch, controlling or regulating the electric machine in motor operation so as to cause the rotational speeds of the transmission shaft and of the gearwheel to be approximated to or aligned with one another, and closing the second clutch so as to produce a connection in terms of rotational drive between the transmission shaft and the gearwheel after the rotational speeds of the transmission shaft and of the gearwheel have been approximated to or aligned with one another without using a synchronizing body. 13. The method as claimed in claim 12 , wherein the rotational speed of the transmission shaft and the rotational speed of the gearwheel are indirectly or directly detected, wherein the control or regulation of the electric machine is performed so as to reduce or eliminate the difference between the rotational speed of the transmission shaft and the rotational speed of the gearwheel. 14. The method as claimed in claim 12 , wherein the control or regulation of the electric machine or the closure of the second clutch are/is automated. 15. The method as claimed in claim 12 , wherein the transmission is, by means of a gear set for forming a forward gear, operated in a reverse gear by way of the electric machine, by way of the electric machine, or by reversal of the rotational direction of the rotor. 16. The drivetrain as claimed in claim 7 wherein the spring device comprises a plate spring. 17. A drivetrain having a first clutch, which has an input side and an output side which is selectively connectable in terms of rotational drive to the input side, and having a transmission, which has a transmission shaft which is connected or connectable in terms of rotational drive to the output side and which is selectively connectable in terms of rotational drive to a gearwheel by means of a second clutch, wherein a rotor of an electric machine is arranged on the output side, and the electric machine, in motor operation, can be controlled or regulated so as to cause the rotational speeds of the transmission shaft and of the gearwheel to be approximated to or aligned with one another before the closure of the second clutch, wherein the first clutch is assigned a spring device, for applying the closing force. 18. A drivetrain having a first clutch, which has an input side and an output side which is selectively connectable in terms of rotational drive to the input side, and having a transmission, which has a transmission shaft which is connected or connectable in terms of rotational drive to the output side and which is selectively connectable in terms of rotational drive to a gearwheel by means of a second clutch, wherein a rotor of an electric machine is arranged on the output side, and the electric machine, in motor operation, can be controlled or regulated so as to cause the rotational speeds of the transmission shaft and of the gearwheel to be approximated to or aligned with one another before the closure of the second clutch, wherein the rotor is arranged on the outside of the first clutch in a radial direction or is in a nested arrangement with the first clutch in a radial direction.