axon terminals
Electric cells have two terminals, a positive (+) and a negative (-), to facilitate the flow of electrons in a circuit. Electrons are released at the negative terminal and flow through the circuit to the positive terminal, creating an electric current. Having two terminals allows for the creation of a potential difference, which is essential for generating electricity.
The tiny branches at the end of a motor neuron are called axon terminals or synaptic terminals. They are responsible for transmitting signals to target cells, such as muscle cells or other neurons, through the release of neurotransmitters at synaptic connections.
What kind(s) of cells can develop from unipotent stem cells
An axon typically ends in small branches called axon terminals. These terminals are responsible for transmitting signals to other neurons or muscle cells through structures called synapses.
In a battery of 5 cells, there are typically 2 terminals: a positive terminal and a negative terminal. Each cell contributes to the overall voltage, but the terminals remain the same regardless of the number of cells. Thus, regardless of whether the cells are connected in series or parallel, the battery itself has only two terminals.
None of The terminals would work
Synaptic vesicles are found in the axon terminals of nerve cells.
Another name for dry cells is primary cells.
Positive & Negitive
-- Connect the cells in series. The two terminals of their series combination present a potential difference of 4 volts. -- Connect both lamps in parallel between the terminals of the series-connected cells.
Simply, direct current (DC). The amount of current depends on the circuit it is used in.
axon terminals
Literally, Lithium is an element. Cells which have Lithium in them are dry cells.
One incorrect statement about dry cells is that they contain a liquid electrolyte. Dry cells actually use a paste or gel electrolyte instead of a liquid.
The kind of cells that have chloroplast are plant cells.
Electric cells have two terminals, a positive (+) and a negative (-), to facilitate the flow of electrons in a circuit. Electrons are released at the negative terminal and flow through the circuit to the positive terminal, creating an electric current. Having two terminals allows for the creation of a potential difference, which is essential for generating electricity.