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Wednesday 25 September 2024 05:00:08 GMT
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mohamir2022
mohamir2022 :
pretty
2024-09-29 09:33:13
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userg6sngg7n2d
🖤ضلام 🖤🌚 :
🤔🤔كل ساعة يطلع لي مقاطع حالش
2024-11-10 18:39:52
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ياوقت لاتبحث خفايا كل مشتاق :
منوره 🥰🥰🥰
2024-12-04 19:29:18
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albalushi315
🇴🇲🇴🇲قابوس السلام 🇴🇲🇴🇲 :
صباح الورد
2024-09-25 05:03:17
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ib3936594517124
إبراهيم .. IBRAHIM :
ذوق عالي جدا في اختيار الالوان وتناسقها 🌹 لوحة فناااااان 👌
2024-10-08 12:21:50
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user9532124626733
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روووعه
2024-10-03 20:08:24
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saalltan123
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الحناء جميل وابداع وربي يعطيك الصحة والعافية يارب
2024-10-02 17:01:02
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saalltan123
صمتي حكايه :
الحناء جميل وابداع وربي يعطيك الصحة والعافية
2024-09-29 06:05:57
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Was the World More Colourful as a Kid? #memories. Sensory adaptation is a remarkable process through which our sensory systems adjust to prolonged exposure to a constant stimulus, allowing us to maintain sensitivity to changes in our environment while filtering out irrelevant or repetitive information. This intricate mechanism operates across all five senses—sight, hearing, taste, smell, and touch—and plays a fundamental role in our perception of the world. Here's a detailed exploration of how sensory adaptation works: Initial Sensation: Sensory adaptation begins with the initial exposure to a stimulus, whether it's a bright light, a loud sound, a strong odor, a distinct taste, or a tactile sensation on the skin. At this stage, sensory receptors in the relevant sensory organs detect the stimulus and transmit signals to the brain for processing. Signal Transmission: Upon receiving sensory input, specialized nerve cells known as sensory receptors convert physical stimuli into electrical signals that travel along neural pathways to specific regions of the brain responsible for sensory processing. Each sensory modality—vision, audition, olfaction, gustation, and somatosensation—has its corresponding neural pathways and brain structures involved in signal transmission. Neural Processing: In the brain, incoming sensory signals undergo complex neural processing to extract relevant information and interpret its significance. This process involves integrating sensory input with existing neural representations, memories, and contextual cues to form a coherent perceptual experience. Different brain regions, such as the visual cortex, auditory cortex, olfactory bulb, gustatory cortex, and somatosensory cortex, are specialized for processing specific types of sensory information. Adaptation Response: As exposure to a constant stimulus persists over time, sensory receptors and neural circuits adapt to maintain optimal sensitivity and efficiency. This adaptation response involves a variety of mechanisms that adjust the responsiveness of sensory neurons, alter synaptic transmission, and modulate neural activity in response to prolonged stimulation. These adaptive changes help prevent sensory overload, conserve neural resources, and optimize the detection of novel or salient stimuli. #senses #vision
Was the World More Colourful as a Kid? #memories. Sensory adaptation is a remarkable process through which our sensory systems adjust to prolonged exposure to a constant stimulus, allowing us to maintain sensitivity to changes in our environment while filtering out irrelevant or repetitive information. This intricate mechanism operates across all five senses—sight, hearing, taste, smell, and touch—and plays a fundamental role in our perception of the world. Here's a detailed exploration of how sensory adaptation works: Initial Sensation: Sensory adaptation begins with the initial exposure to a stimulus, whether it's a bright light, a loud sound, a strong odor, a distinct taste, or a tactile sensation on the skin. At this stage, sensory receptors in the relevant sensory organs detect the stimulus and transmit signals to the brain for processing. Signal Transmission: Upon receiving sensory input, specialized nerve cells known as sensory receptors convert physical stimuli into electrical signals that travel along neural pathways to specific regions of the brain responsible for sensory processing. Each sensory modality—vision, audition, olfaction, gustation, and somatosensation—has its corresponding neural pathways and brain structures involved in signal transmission. Neural Processing: In the brain, incoming sensory signals undergo complex neural processing to extract relevant information and interpret its significance. This process involves integrating sensory input with existing neural representations, memories, and contextual cues to form a coherent perceptual experience. Different brain regions, such as the visual cortex, auditory cortex, olfactory bulb, gustatory cortex, and somatosensory cortex, are specialized for processing specific types of sensory information. Adaptation Response: As exposure to a constant stimulus persists over time, sensory receptors and neural circuits adapt to maintain optimal sensitivity and efficiency. This adaptation response involves a variety of mechanisms that adjust the responsiveness of sensory neurons, alter synaptic transmission, and modulate neural activity in response to prolonged stimulation. These adaptive changes help prevent sensory overload, conserve neural resources, and optimize the detection of novel or salient stimuli. #senses #vision

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