That is a good question! All the information that your brain receive from your sensory organs is called as sensory information. You have your nose, your eyes, your ears, your tongue and you skin to give you sensory information. Your brain finds it difficult to process the information out side this range. Very few people like Sir Issac Newton and Albert Einstein could process the information, out side this range. They became the greatest scientists of all time.
Frequency
Yes, ASMR does stand for autonomous sensory meridian response. It is the effect of brain tingling triggered by certain visual and sound stimuli.
The characteristics of autonomous sensory meridian response (ASMR) differ by individual. The main characteristics are head tingling, relaxation, calmness, sleepiness, happiness and "headgasms".
The stimulus is detected by the sensory receptor. The sensory receptor stimulates a sensory neuron. The sensory neuron transmits to the interneuron in the spinal cord. The interneuron stimulates a motor neuron. The motor neuron communicates to the muscle. The muscle(effector) then produces the response allowing the body to respond to the stimulus.
The component that determines the response to a stimulus in a reflex arc is the interneuron. This neuron receives the sensory input from the sensory neuron, processes the information, and then sends signals to initiate the appropriate motor response via the motor neuron.
The stimulus is what triggers the reflex response.
reflex
Frequency
Autonomous means uncontrollable. Sensory relates to the sensations felt. Meridians are the sensitive points on our bodies Response is the reaction. The effects of ASMR are uncontrollable sensory responses that affect one or two of our meridians.
reflex
Yes, ASMR does stand for autonomous sensory meridian response. It is the effect of brain tingling triggered by certain visual and sound stimuli.
The characteristics of autonomous sensory meridian response (ASMR) differ by individual. The main characteristics are head tingling, relaxation, calmness, sleepiness, happiness and "headgasms".
The stimulus is detected by the sensory receptor. The sensory receptor stimulates a sensory neuron. The sensory neuron transmits to the interneuron in the spinal cord. The interneuron stimulates a motor neuron. The motor neuron communicates to the muscle. The muscle(effector) then produces the response allowing the body to respond to the stimulus.
sensory data
Reflex
It Is Sensory
The component that determines the response to a stimulus in a reflex arc is the interneuron. This neuron receives the sensory input from the sensory neuron, processes the information, and then sends signals to initiate the appropriate motor response via the motor neuron.