Ok to simulate the effect of a sprite "rolling" you have to combine a rotation and a translation. In order to be convincing, you have to get the right amount of translation so that the body doesn't appear to be rotating out of sync with the translation, like either spinning too fast or too slow for the amount moved. You can determine this distance moved either by trial and error, or you can calculate it fairly precisely if the sprite is nearly circular.

For a perfect circle (the simplest case), as it rolls along the ground, the distance rolled is equal to the radius multiplied by the radians rotated. So for a full rotation, the horizontal distance moved would be 2*pi*r. For a partial rotation, in your case 130 degrees, the horizontal distance traveled would be -130 * (pi/180) * sprite.contentSize.width/2 for a circular sprite. The pi/180 is to convert from degrees to radians. For a non-perfect circle, this formula will get you close but you might have to tweak it to get the look right. So to recap, along with some sample code, your approach might go something like this:

```
float radius = mySprite.contentSize.width/2;
float radians = CC_DEGREES_TO_RADIANS(-130);
float distance = radians * radius;
CCRotateBy *rotateAction = [CCRotateBy actionWithDuration:0.2 angle: -130];
CCMoveBy *moveAction = [CCMoveBy actionWithDuration:0.2 position:ccp(distance, 0)];
CCSpawn *spawnAction = [CCSpawn actionOne:rotateAction two:moveAction];
[mySprite runAction:spawnAction];
```