Information is sent to neurons primarily through synapses, where neurotransmitters are released from the axon terminals of one neuron and bind to receptors on the dendrites of another. This chemical signaling facilitates the transmission of signals across the synaptic gap, allowing the receiving neuron to generate an electrical impulse if the signal is strong enough. Additionally, sensory receptors can directly convert environmental stimuli into electrical signals that neurons can process.
sensory neurons
The order of a visceral reflex involves sensory receptors detecting a stimulus, which then sends signals via afferent neurons to the central nervous system. The central nervous system processes the information and sends signals through efferent neurons to the effector organs, resulting in a response to the stimulus.
Interneurons or association neurons.
The pathway of neurons that impulses in an automatic response follow is called the reflex arc. This involves sensory neurons detecting a stimulus, sending a signal to the spinal cord, which then processes the information and sends a response via motor neurons back to the muscles or glands.
neuron. Neurons are specialized cells that process and transmit information through electrical and chemical signals in the nervous system. They have a unique structure that allows them to efficiently communicate with other neurons, facilitating the functioning of the nervous system.
The axon of a neuron is the part that sends information to other neurons or cells in the body. It transmits electrical signals known as action potentials from the cell body to the axon terminals where communication with other neurons occurs.
Sensory neurons carry signals from the receptors in our body (e.g. thermal, pressure etc.) to the relay neurons, which are found in our spinal cord. Relay neurons then send signals along the spinal cord to the brain. The brain then processes the information and sends a signal back down the spinal cord, through the relay neurons. Relay neurons then sends signals to motor neurons, which will then affect the muscles' movements.Read more: What_does_neuron_cells_do
messenger neurons
When movement is fast in response to a stimulus, the body sends rapid signals through the nervous system. Sensory neurons detect the stimulus and quickly convey this information to the brain. The brain then processes the information and sends out signals to motor neurons, instructing the body to react accordingly.
the ganglia sends information and the spinal nerves are dorsal which receives information. you would not have the one the sends information in the nerve that receives information you would be wasting resources
Sensory neurons carry signals from the receptors in our body (e.g. thermal, pressure etc.) to the relay neurons, which are found in our spinal cord. Relay neurons then send signals along the spinal cord to the brain. The brain then processes the information and sends a signal back down the spinal cord, through the relay neurons. Relay neurons then sends signals to motor neurons, which will then affect the muscles' movements.Read more: What_does_neuron_cells_do
Sensory neurons carry signals from the receptors in our body (e.g. thermal, pressure etc.) to the relay neurons, which are found in our spinal cord. Relay neurons then send signals along the spinal cord to the brain. The brain then processes the information and sends a signal back down the spinal cord, through the relay neurons. Relay neurons then sends signals to motor neurons, which will then affect the muscles' movements.Read more: What_does_neuron_cells_do
sensory neurons
Sensory neurons
The central nervous system, which consists of the brain and spinal cord, coordinates incoming sensory information and sends instructions to muscles and glands. This information processing allows for both voluntary and involuntary responses to stimuli.
The order of a visceral reflex involves sensory receptors detecting a stimulus, which then sends signals via afferent neurons to the central nervous system. The central nervous system processes the information and sends signals through efferent neurons to the effector organs, resulting in a response to the stimulus.
Each neuron sends a signal to the next. These signals control all functions of the body and are made up of neurotransmitters. All sensory neurons send information to the brain and the brain decodes it and sends information to systems of the body to regulate what is happening.