Neurones
Nerve cells or neurons have the ability to respond to stimuli by generating signals such as action potentials. These signals travel along the nerve cells to communicate information within the nervous system.
They go through synapses.
In nerve cells, electrical signals are transmitted away from the nucleus primarily through structures called axons. The axon conducts action potentials, which are rapid changes in electrical potential, allowing the signal to travel along its length. At the axon terminals, the signal is then transmitted to other cells, such as other neurons or muscle cells, through the release of neurotransmitters. This process is essential for communication within the nervous system.
Yes, the impulses leaving nerve cells, known as action potentials, travel along axons. Axons are long, slender projections of nerve cells that conduct electrical signals away from the cell body. The action potential is propagated down the axon through a process involving the rapid opening and closing of ion channels, allowing ions to flow in and out of the cell membrane. This process ensures the efficient transmission of signals to other neurons, muscles, or glands.
The cochlea is the structure of the ear that converts sound vibrations into nerve signals. It contains hair cells that are responsible for detecting the vibrations and transmitting them to the brain through the auditory nerve.
Neurotransmitters are chemicals that transmit signals between nerve cells at synapses, while impulses refer to the electrical signals that travel along the nerve cells themselves. Neurotransmitters bridge the gap between two nerve cells, whereas impulses are the electrical messages that travel along the length of a nerve cell.
Nerve cells or neurons have the ability to respond to stimuli by generating signals such as action potentials. These signals travel along the nerve cells to communicate information within the nervous system.
Nerve cells relay messages through electrical signals called action potentials. These signals travel along the length of the nerve cell and are transmitted to other nerve cells or muscles at specialized junctions called synapses. At the synapse, chemical messengers called neurotransmitters are released to carry the signal to the next cell.
no you give an answer im the one that asked the question
They go through synapses.
Yes they do send out signals
These Types of nerve Cells are Known As Motor Neurons.
Well nerve cells are diffrent to other cells mainly because they are very long and thin. This is so nerve signals can travel to the brain quickly. Hope that helps xxx =D
In nerve cells, electrical signals are transmitted away from the nucleus primarily through structures called axons. The axon conducts action potentials, which are rapid changes in electrical potential, allowing the signal to travel along its length. At the axon terminals, the signal is then transmitted to other cells, such as other neurons or muscle cells, through the release of neurotransmitters. This process is essential for communication within the nervous system.
The body uses a complex network of nerve cells called neurons to send electrical signals. These signals travel along the neurons and across the synapses to communicate with other cells in the body, allowing for coordination and control of different functions.
Yes, the impulses leaving nerve cells, known as action potentials, travel along axons. Axons are long, slender projections of nerve cells that conduct electrical signals away from the cell body. The action potential is propagated down the axon through a process involving the rapid opening and closing of ion channels, allowing ions to flow in and out of the cell membrane. This process ensures the efficient transmission of signals to other neurons, muscles, or glands.
The cochlea is the structure of the ear that converts sound vibrations into nerve signals. It contains hair cells that are responsible for detecting the vibrations and transmitting them to the brain through the auditory nerve.