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dodgers42
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the acid solution in a fully charge lead storage cell contains 33% h2so4 by weight and has a density of 1.25g/ml. cALculate its molarity
mit said:As you say 33% by weight and 1.25g/ml is ... gr/l do you see it now?
The molarity of acid solution in a fully charged lead storage cell can vary depending on the specific type and size of the cell. However, on average, a fully charged lead storage cell will have a molarity of around 2-2.5 M.
The molarity of acid solution is a crucial factor in the performance of a lead storage cell. If the molarity is too low, the cell may not be able to provide enough power, and if it is too high, it can lead to corrosion and damage to the cell. Maintaining the proper molarity is essential for optimal performance.
The molarity of acid solution in a lead storage cell can be measured using a variety of methods, including titration, density measurements, and pH measurements. These methods can provide an accurate measurement of the molarity and help ensure that the cell is functioning properly.
The ideal molarity range for acid solution in a lead storage cell is typically between 2-2.5 M. This range provides enough power for the cell to function properly without causing damage due to high acidity levels. It is important to regularly check and maintain the molarity within this range.
The molarity of acid solution in a lead storage cell can be adjusted by adding either water or concentrated sulfuric acid. Adding water will decrease the molarity, while adding sulfuric acid will increase it. It is important to carefully follow instructions and use proper safety measures when adjusting the molarity of acid solution in a lead storage cell.