It is transmitted along action potentials by way of chemical neurotransmitters.
The stimulus that triggers responses in the nervous system is typically a sensory input, such as touch, sound, light, or chemicals, that is detected by sensory receptors in the body. This information is then transmitted to the brain and spinal cord, where it is processed and elicits a response from the nervous system.
The nervous system receives stimuli through sensory receptors that detect changes in the environment. This information is then transmitted through neurons to the central nervous system, where it is processed. In response, the nervous system sends signals to effectors, such as muscles or glands, to produce actions or responses. This process facilitates communication between the body and its surroundings.
Nerve impulses are transmitted from the receptor to the central nervous system via sensory neurons. In the central nervous system, the impulse is processed and may be relayed to motor neurons that carry the impulse to effectors such as muscles or glands to produce a response. This pathway allows for communication and coordination between different parts of the body.
sensory neurons in the peripheral nervous system. These neurons convert stimuli into electrical signals that are then transmitted to the brain through the spinal cord or cranial nerves. The brain then interprets and processes this information to produce appropriate responses.
When you stub your toe, the sensory neurons in the peripheral nervous system carry the pain signals from the toe to the spinal cord. From there, the signals are transmitted to the brain via the central nervous system, where they are processed and perceived as pain. This rapid communication helps you react quickly to the injury.
The process of receiving and representing stimulus energies by the nervous system is called sensory transduction. This is where sensory receptors convert physical or chemical stimulus energy into electrical signals that can be transmitted and processed by the brain.
Information is transmitted through the nervous system via electrical signals called action potentials. These signals travel along nerve cells, or neurons, and are passed from one neuron to another through connections called synapses. Neurotransmitters are released at the synapse to help transmit the signal from one neuron to the next. This process allows information to be relayed throughout the nervous system, enabling communication between different parts of the body and the brain.
autonomic nervous system
Information from the same sense organs is conveyed to the central nervous system by specialized sensory neurons, which convert physical stimuli into electrical signals known as action potentials. These action potentials travel along nerve fibers to the central nervous system where they are processed and interpreted.
The nervous system takes in sensory information from the peripheral nervous system. This information is then directed to the central nervous system which then responds with a motor reaction that travels back to the peripheral nervous system.
The sensory organs, such as the eyes, ears, nose, tongue, and skin, play a crucial role in the nervous system by detecting and transmitting information from the environment to the brain. This information is then processed by the brain to help us perceive and respond to our surroundings.
The nerve cord in an earthworm performs the same task as the nervous system of any animal. The function of the nervous system is to bring sensory information to the brain, where it is processed. Then, the brain sends signals to the body via the nervous system and those signals cause the animal to move.