![Evan Gordon on X: "First, some context. One foundational principle of brain organization we all learn in introductory neuroscience class is Wilder Penfield's motor homunculus, which describes a linear progression of motor Evan Gordon on X: "First, some context. One foundational principle of brain organization we all learn in introductory neuroscience class is Wilder Penfield's motor homunculus, which describes a linear progression of motor](https://pbs.twimg.com/media/FuFWxhfXgAAqR9Q.jpg)
Evan Gordon on X: "First, some context. One foundational principle of brain organization we all learn in introductory neuroscience class is Wilder Penfield's motor homunculus, which describes a linear progression of motor
![How Our Team Overturned the 90-Year-Old Metaphor of a 'Little Man' in the Brain Who Controls Movement | Scientific American How Our Team Overturned the 90-Year-Old Metaphor of a 'Little Man' in the Brain Who Controls Movement | Scientific American](https://static.scientificamerican.com/sciam/cache/file/095D61DA-16CE-47D3-A4691B4BBEEEE0FC_source.jpg?w=1200)
How Our Team Overturned the 90-Year-Old Metaphor of a 'Little Man' in the Brain Who Controls Movement | Scientific American
Aptodate - Motor and sensory homunculus Topographic representation of motor and sensory areas in the cerebral cortex, which corresponds geographically to the body parts they control and receive sensation. Distorted appearance is
![Proposed supplemental cortical motor homunculus including the cortical... | Download Scientific Diagram Proposed supplemental cortical motor homunculus including the cortical... | Download Scientific Diagram](https://www.researchgate.net/publication/350979638/figure/fig6/AS:1014534995206151@1618895400960/Proposed-supplemental-cortical-motor-homunculus-including-the-cortical-somatotopy-of.png)