A. Inferior olivary nucleus
relay neuron
The thalamus functions as a relay station between the cerebellum and other brain structures, helping to transmit sensory and motor information. It is an important hub for integrating and coordinating signals between different parts of the brain.
Sensory Neurons- they detect stimuli and transmit signals to the brain and the spinal cord, which are both made up of interneurons
Sensory Neurons
Sensory Neurons
Neurons are specialized cells that transmit electrical and chemical signals throughout the nervous system to communicate messages. They communicate through the release of neurotransmitters at synapses, enabling the transmission of information across the brain and body.
An interneuron (also called relay neuron, association neuron, connector neuron or local circuit neuron) is a neuron that forms a connection between other neurons. Interneurons are neither motor nor sensory.
cerebellum
The nervous system carries messages through a network of nerve cells called neurons. When a stimulus is detected, electrical signals are generated in the neurons and travel along the nerve cells in the form of action potentials. These action potentials allow for communication between different parts of the body and are transmitted across synapses to relay messages between neurons.
Nerves relay messages by transmitting an electrical impulse.
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