oxygen oxygen
water
Neurons primarily transmit messages through electrical impulses and communicate with each other at synapses using neurotransmitters, which are chemical messengers specifically designed for this purpose. Hormones, on the other hand, are produced by endocrine glands and travel through the bloodstream to target organs, affecting various physiological processes. While both neurotransmitters and hormones are involved in signaling, they operate in different systems and have distinct roles. Thus, neurons do not transmit messages via hormones.
The messages are carried by chemical messenger across the neurons (synapses). It is actually an enzyme which is released from one end of the synapse and which triggers the electrical message to pass through each cell from side to side.
cellular respiration
Submarine communication cables, also known as undersea cables, carry messages by wire across the sea. These cables are laid on the ocean floor and transmit data through optical fibers.
water
The messages are carried by chemical messenger across the neurons (synapses). It is actually an enzyme which is released from one end of the synapse and which triggers the electrical message to pass through each cell from side to side.
Electrical energy is used to transmit messages from one part of the body to another through the nervous system. Nerve cells called neurons use electrical signals to communicate with each other and relay information throughout the body.
cellular respiration
Through photosynthesis and/or cellular respiration. -anonymous18_K
Through photosynthesis and/or cellular respiration. -anonymous18_K
Submarine communication cables, also known as undersea cables, carry messages by wire across the sea. These cables are laid on the ocean floor and transmit data through optical fibers.
Cellular Respiration !!
Through photosynthesis and/or cellular respiration. -anonymous18_K
Nervous tissue, specifically neurons, transmit messages from the head to the toes through electrical and chemical signals. This allows for communication and coordination between different parts of the body.
Yes, neurons demonstrate irritability as they respond to stimuli by generating electrical impulses. They also have the ability to conduct these impulses along their length, allowing them to transmit electrical messages from one part of the body to another through synapses with other neurons.
Total internal reflection enables the transmission of messages through fiber optic cables by causing light signals to bounce off the walls of the cable, instead of escaping through them. This allows the light signals to travel long distances without losing strength or clarity, making it an efficient way to transmit messages.