Topic: | Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups |
Posted by: | Eric Rudnick |
Date/Time: | 17/02/2003 05:11:02 |
KC, To generalize is to move rules you learn in one context to another. So, for example, if you are cooking, and you discover that timing and sequence of mixing the ingredients has more subtle effect on the end result than you were aware of before. So, you go in to teach an NLP training, and you recognize that the timing and sequence of teaching the tools has far more effect than if you did so at random. That's generalization. - Eric |
Topic | Date Posted | Posted By |
The Milton/Moshe Move applied to Modeling Groups | 15/02/2003 22:35:28 | Eric |
Re:The Milton/Moshe Move applied to Modeling Groups | 16/02/2003 01:31:33 | Carmen Bostic |
Re:Re:The Milton/Moshe Move applied to Modeling Groups | 16/02/2003 17:53:39 | kc |
Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 17/02/2003 05:11:02 | Eric Rudnick |
Re:Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 17/02/2003 20:36:51 | John Grinder |
Re:Re:Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 18/02/2003 18:42:20 | Eric Rudnick |
Re:Re:Re:Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 19/02/2003 16:29:40 | John Grinder |
Re:Re:Re:Re:Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 19/02/2003 18:14:09 | Eric |
Re:Re:Re:Re:Re:The Milton/Moshe Move applied to Modeling Groups | 19/02/2003 17:01:06 | Robert |