Generator potentials are primarily generated in sensory receptors, which are specialized cells located in various parts of the body, such as the skin, muscles, and sensory organs. When these receptors detect a stimulus (like light, sound, or pressure), they undergo a change in membrane potential, creating a generator potential. If this potential reaches a certain threshold, it can trigger an action potential that propagates along sensory neurons to the central nervous system for processing.
The load on a generator is a general word for whatever device is connected to it to use the power that is being generated.
demagnetising effect of dc generator is to reduce main field flux there by reduction in generated voltage.
The unused power goes to "waste"
Generator coils generate the voltage, motor coils use the generated voltage.
to find the relation between emf generated and Field current .....
All-or-none principle
The frequency of stimulation can affect the action potential by influencing the rate at which action potentials are generated in a neuron. Higher frequency stimulation can lead to more action potentials being fired in a shorter amount of time, while lower frequency stimulation may result in fewer action potentials being generated. This relationship is known as frequency-dependent facilitation or depression.
While all cells have cell membranes, action potentials are mainly generated by excitable cells like neurons and muscle cells due to the presence of voltage-gated ion channels. These channels allow for rapid changes in membrane potential, leading to the generation of action potentials. Non-excitable cells do not typically generate action potentials.
Electricity can be generated through a generator. It can also be made by rubbing your slippers across the carpet.
The output of a bicycle generator is electricity, which is generated by pedaling the bicycle to power a generator that converts mechanical energy into electrical energy.
The load on a generator is a general word for whatever device is connected to it to use the power that is being generated.
They use a generator to turn it into Electricity
Action potentials are generated at the nodes of Ranvier during saltatory conduction. These nodes are the non-myelinated gaps found along the axon where the action potential can occur, allowing for faster transmission of the electrical signal down the nerve fiber.
If no electrical load is attached to a running generator, the electrical energy generated typically backs up onto the grid or remains within the generator's internal electrical system. It is important to have a load connected to a generator to ensure efficient and proper functioning.
Local graded potentials are small changes in membrane potential that occur in response to neurotransmitter binding to ligand-gated ion channels on the post-synaptic neuron. These potentials can summate and affect the likelihood that an action potential will be generated in the neuron. They are also referred to as synaptic potentials.
demagnetising effect of dc generator is to reduce main field flux there by reduction in generated voltage.
The "Tigger zone" in a unipolar neuron is the initial segment of the axon where action potentials are generated. Here, graded potentials from the dendrites accumulate and if they reach a certain threshold, an action potential is triggered.