"If it wasn't for their political problems and constant fighting between each other, the Muslims would have been on the moon by the 1400's" was the statement made by a non-Muslim professor in a 400-level undergraduate class on the history of science. It seems that the rate of discovery and advancement in science achieved by the Muslims was quite impressive and has yet to be replicated. What was it that they were doing that allowed for their fast progress?
The teacher in me immediately thinks about their education system, and the neuroscientist in me wants to examine the factors involved in shaping the brains of such a civilization. Interestingly, many Muslim religious scholars will say something about how the Muslims were the leaders when the Quran was the center of their education, and only when they abandoned the Quran that they lost their reign. The amazing thing about this is that while Muslim religious scholars are typically talking about spiritual and moral realities, there is actually a material reality to what they're saying, which takes place in the brain.
A quick disclaimer here: The list of all that is affected in the brain by the Quran and how that can influence other functions is quite exhaustive. But in the interest of keeping it short, I chose some major areas to present in this article.
Before getting into the brain and how the Quran changes it, one should be familiar with how traditional Muslim education took place. In case you're wondering where I'm getting this from, it's from reading the biographies of major figures of scholarship in the traditional Muslim world such as Ibn Rushd, Ibn Sina, and others. This is also based on my personal experience and what I have been told by some of my teachers.
As the days pass the capacity for memorization increases and the student is able to take on several verses or even pages at a time instead of only one or two verses. The writing using Othmani spelling continues, as well as the review sessions. Eventually, the whole Quran having more than 6,200 verses is memorized word for word with their specific pronunciation and Othmani spelling. Now the hard task begins as the student works to review all the verses on a monthly basis so as to not forget them. This usually means taking the 30 parts of the Quran as it has been divided to facilitate memorization, and reviewing one part everyday until all 30 have been recited by the end of the month.
It should be mentioned here that the Quran has 10 different modes of recitation. This refers to the placement of diacritical marks on the words and how certain words are pronounced. Some students take this task on and memorize the Quran in all the different modes of recitation, which requires a very careful attention to where the pronunciations are different so they're not confused with each other given how subtle they sometimes can be.
There are a couple of important qualities about the Quran that relates to how it sounds. Verses in the Quran rhyme and change rhythm often, which gives a pleasurable effect to the listener. Furthermore, as one recites, they're supposed to sing it rather than simply read it. In fact, the very practice of Taj'weed (elocution) forces the reciter into a singing tone as they enunciate the words of each verse.
A final note to bring up is in regards to the Arabic language and writing in Othmani script. Part of studying the different modes of recitation requires the student to write not only in an unusual spelling, but also to exclude the diacritical marks from the words. This would allow the student to learn the variations of recitation without having the diacritical marks visually interfere with their memorization of different modes of recitation. Moreover, the grammar of the Arabic requires the proper use of diacritical marks in pronunciation so as to not confuse things such as the subject and predicate. This means that the one learning the Quran must always keep track of how the words are enunciated so as to not alter the overall meaning of the verse.
The parietal lobes are also quite heavily engaged as one learns the Quran. The left parietal lobe deals with reading, writing, and functions in speech. It's also the part whose activity is important for math and logic problems. The right parietal lobe handles speech tone, which is related to elocution. It's also responsible for visuospatial relationships and understanding facial expressions. The front part is responsible for the sense of touch discrimination and recognition, which is active during handwriting. The back part plays an important role in attention. Both lobes are also activated during skill learning tasks. Overall, having parietal lobes that have been well activated translates to better logic and math-solving skills, eloquence in general speech, better ability at reading emotional states from facial cues, improved attention, and enhanced capacity for understanding visuospatial relationships.
This last one can explain why Muslims were so good at astronomy.
Other brain regions the activity of Quran recitation strongly activate are the frontal lobes and the primary motor cortex. The frontal lobes activity deals with higher order functions, including working memory, memory retrieval, speech production and written-word recognition, sustained attention, planning, social behavior, in addition to others. For example, as the student is reading the Othamni script, his brain must quickly decide on the proper pronunciation of the word, which without the diacritical marks means it must be distinguished from other possibilities that include not only wrong words, but also wrong enunciation depending on the specific recitation he's using out of the 10 valid ones. The amazing thing about this is that the brain after practice will do these things without conscious control from the student. This trains the area of the brain responsible for inhibition, which is important for social interaction. Children with ADHD have been shown to have this area to be under-developed.
Given the Quran's content that for example includes descriptions of individuals and places, it activates the occipital lobes, which are involved in generating mental imagery. This brain region is also important in visual perception. Becoming active as a result of generating mental imagery indirectly improves visual perception capacities since the area activated is within the same region. The Quran is also rich in its content for history, parables, and logical arguments, all of which recruit different areas that become more efficient and better connected as they are continually activated due to the consistent review sessions.
Putting all this together, it's no wonder Muslims were able to make such vast contributions to human knowledge in a relatively short amount of time, historically speaking. After the aspiring student during the height of Muslim rule has mastered the Quran, his education in other sciences began by the time he was in his early teenage years. Given the brain's malleable nature, the improved connections in one region indirectly affect and improve functions in adjacent locations. The process in studying the Quran over the previous years has trained his brain and enhanced its functions relating to visual perception, language, working memory, memory formation, processing of sounds, attention, skill learning, inhibition, as well as planning just to name a few. Now imagine what such an individual will be able to do when they tackle any subject. It makes sense how someone like Imam Al Ghazali can say he studied Greek philosophy on the side during his spare time and mastered it within 2 years.
What was the Muslims' secret for their exponential rise in scientific advancement and contribution to human knowledge? Literally, the Quran when it was the centre of their education system.
Source: Mohamed Ghilan
2 comments:
Alhumdulillaah, the article was so beautiful... It has only strengthened my resolution to do hifz, inshallaah.
I have personally heard many stories of people who memorize the Quran at a young age (I'm talking as young as 5 or 6 years old) go on to be extremely intelligent and academically gifted.
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