It depends on the chemistry of the battery. A common alkaline or zinc chloride non-rechargeable battery will be about 1.5v per cell. a NiMh or NiCd rechargeable battery is usually quoted at 1.2v per cell, Lithium Ion cells are generally quoted at 3.7 volts and lead acid at 2v per cell. Divide the pack voltage by the individual voltage of each cell and you will find out how many cells are in the pack.
The amount of voltage produced in a battery is determined by the types of chemical reactions occurring within the battery and the materials used for the electrodes. The voltage is also affected by the number of cells in the battery, with multiple cells in series increasing the total voltage output.
By the number of cells. A 12 V battery should consist of 6 cells, each providing about 2 volts. A 12 V battery should consist of 6 cells.
A battery consists of a number of cells, which are individual units that produce electrical energy. "Double-cell" simply means it has two of those cells.
Cell number and cell size both determine the size of an animal.
AnswerAccording to WikiPedia (http:/en.wikipedia.org/wiki/Rechargeable_battery), the nominal cell voltage of a Lead Acid wet-cell battery is 2.1 volts, this implies there are 6 cells in a 12 volt Lead Acid wet-cell battery.
Biologists use dividing cells to determine the number of chromosomes in an organism because chromosomes are most visible and distinct during cell division. By observing dividing cells under a microscope, biologists can count the number of chromosomes present, which provides information about the genetic makeup of the organism.
it depends on the capacity and voltage of the battery, generally speaking, there are 4-cells, 6-cells and 9-cells batteries on the market, the bigger capacity and voltage will have a longer last time
Battery voltage / number of cells = cell voltage 12/6 = 2 volts cell voltage
Depends on the number of cells, and the cell chemistry.
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.
The voltage is set by the number of cells, so a 6 v battery has four cells and a 9 v battery has six. The size of the cells decides the capacity but not the voltage, so four big cells might be bigger than six small ones. The one with bigger cells has a greater amp-hour capacity.
The number of plates in a battery used for an inverter typically depends on the battery's design and capacity. For lead-acid batteries, common configurations include 2, 4, or 6 plates per cell, with larger capacity batteries having more cells and plates. In contrast, lithium-ion batteries usually come in modular designs and may not adhere to a plate count. Always check the manufacturer's specifications for the specific battery model to determine the number of plates.