Both use neurones which transmit in via action potential and synaptic transmission. Sensory neurones include pain neurones which enter directly into the brain, which perceives the stimulus as pain and gives emotional and motor responses accordingly. Sensory neurones also perceive homeostasis, in that they sense stimuli outside physiological norms and change homeostasis in order to rectify the problem.
All motor and limbic (emotional) outputs from the brain are stimulated and therefore initiated by sensory neurone inputs.
The spine relys information from peripheral sensory neurones to the brain, and is the literal connection between sensory neurones and the brain.
Sensory nerves transmit information from sensory receptors in the body to the neurons in the brain. When sensory receptors detect stimuli such as touch, temperature, or pain, they send signals through sensory nerves to the brain. Neurons in the brain then process and interpret these signals, allowing us to perceive and respond to the sensory information.
Sensory nerves, or the receptor nerves, as they are only made up of sensory neurons. Receptors are the specialised structures at the end of the sensory nerves that receive the stimuli and convert it into an electrical signal to be conducted by the nerve as a nerve impulse.
Nerves that only carry impulses away from the central nervous system (CNS) are called:Motor Nerves
They can be found in the dorsal root ganglia, retina, peripheral vestibular organs, cochlea, and enteric nervous system. Then there are second order sensory neurons in the brain that form the basis of the 'sensory homonculus'.
Connector neurons are specialized bipolar or multipolar neurons of the central nervous system. Connector neurons are also known as interneurons and connect sensory neurons.
AnswerAfferent sensory neurons carry the impulses from the receptors (afferent sensory organs) to the spinal cord and/or the brain.
What connects sensory and motor neuron is the impulse called interneuron or connector neuron are connected by means of electrical impulse called synape from sensory to motor neuron.
They are nerves. These nerves tell us exactly what we feel, and then send that information to the brain.
Both sensory and motor neurons......
a mixed nerve carry both motor and sensory nerves
Sensory neurons are nerves that take in information from either the outside world, or from within the body itself. Sensory neurons communicate this information to the brain which then issues a response. Sensory nerves take in and communicate information about heat, cold, pressure, pain, position and more. detect, feel, and smell
Sensory neurons are nerves that take in information from either the outside world, or from within the body itself. Sensory neurons communicate this information to the brain which then issues a response. Sensory nerves take in and communicate information about heat, cold, pressure, pain, position and more. detect, feel, and smell
Sensory nerves, or the receptor nerves, as they are only made up of sensory neurons. Receptors are the specialised structures at the end of the sensory nerves that receive the stimuli and convert it into an electrical signal to be conducted by the nerve as a nerve impulse.
Sensory neurons: Transmit sensory information from the body to the brain. Motor neurons: Control muscles and glands, enabling movement and bodily functions. Interneurons: Process information within the central nervous system, facilitating communication between sensory and motor neurons.
Nerves that only carry impulses away from the central nervous system (CNS) are called:Motor Nerves
There are the Mixed Nerves in the spinal column that carry both sensory and motor nerves, but these neurons have 2 different jobs that they do,& I know of no neurons doing both as the impulses travel to 2 different locations which couldn't be done at the same time.
nerves our individual cells-neurons
Sensory nerves are the nerves that allow people to experience taste, touch, smell, sight, and hearing. For sight, there are photoreceptors; for hearing, there is stereocilia; for touch, there are motor neurons, and for smell there are olfactory sensory nerves.