Sensory neurons and neurons are connected by Interneurons.
Sensory neurons and motor neurons are connected by interneurons in the central nervous system. Interneurons help relay signals from sensory neurons to motor neurons, allowing for the coordination of sensory input and motor output in response to various stimuli.
When they are connected together they are called nerve.
When they are connected together they are called nerve.
Neurons that receive info & send impulses to brian or spinal cord.
Nerve cells (neurons) of the CNS (i.e. the brain).
No, neurons are NOT physically connected at all.However, at the end of a dendrite branch on a neuron is a synapse.A synapse is basically just a gap between 2 neurons.When impulses are sent, chemicals called neurotransmitters diffuse across the synapse and get passed on to neighbouring neurons.Hope this helps
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.
The space between two connected neurons is called a synapse. This is where neurotransmitters are released from one neuron to transmit signals to the next neuron.
A "synapse" is the gap between neurons in the brain. Since the brain is not hard wired, and the neurons are only connected by a chemical synapse, the brain can be "re-wired" to act in a way it did not before. This is how we are able to learn and perfect new skills.
The hydra has a nervous system characterized by a nerve net. A nerve net is a collection of separate, but "connected" neurons. Neurons are connected by synapse. Communication between neurons can be in both directions at the synapse within a nerve net. The nerve net is concentrated around the mouth. Unlike higher animals, the hydra does not have any grouping of nerve cell bodies. In other words, there are no ganglia. The hydra does have specialized cells for touch and chemical detection.
Interneurons connect sensory neurons to motor neurons in the central nervous system. The interneurons process and relay information received from sensory neurons to motor neurons, which then initiate a response or movement.