The pH value of the acid used in dry cells, typically sulfuric acid, is around 0-1. This indicates a strong acidic nature.
Muriatic acid is a (concentrated) solution of Hydrogen chloride, which is a GAS (at STP). So it is not a liquid itself and certainly NOT a DRY solid!Properties of concentrated muriatic or hydrochloric acid (HCl in water):Density 1.18 g/cm3 at concentration (variable) value for assay 36-38% w/w
Concentrated sulfuric acid is commonly used to dry ammonia gas by absorbing any moisture present. The acid traps water molecules, leaving behind dry ammonia gas for various industrial applications.
Well, honey, you can't just snap your fingers and turn dry acid into liquid acid. You'll need to dissolve the dry acid in a specific amount of water to create a liquid solution with the desired concentration. Just follow the instructions on the dry acid packaging to determine the correct ratio of dry acid to water for your desired concentration. It's not rocket science, but it does require a bit of measuring and mixing.
Muratic acid is hydrogen chloride (HCl) dissolved in water and sold as a liquid
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.
It depends on what the 6 cells are, but the battery voltage is just 6 times the cell voltage. In a car battery (lead-acid cells) - 12V In a dry-battery (zinc-carbon cells) - 9V
You can add dry acid to your pool when your pH is above 7.8
A dry cell is a type of voltaic cell that uses a paste electrolyte, such as manganese dioxide, instead of a liquid electrolyte. Voltaic cells, on the other hand, can have different types of electrolytes, including liquid solutions. Dry cells are commonly used in batteries for everyday devices, while voltaic cells are used in various industrial applications and laboratories.
Muriatic acid is a (concentrated) solution of Hydrogen chloride, which is a GAS (at STP). So it is not a liquid itself and certainly NOT a DRY solid!Properties of concentrated muriatic or hydrochloric acid (HCl in water):Density 1.18 g/cm3 at concentration (variable) value for assay 36-38% w/w
Either wet or dry cells are used to make a battery.
Dry cells use a damp paste electrolyte in a sealed housing so the electrolyte can not spill or leak from the cell and damage the equipment it powers. Wet cells use a liquid electrolyte that can spill and/or leak from the cell and severely damage the equipment it powers. Almost all early battery cells were wet cells with the electrolyte contained in either a glass beaker or glazed pottery crock. The user had to periodically add water to keep them from drying out and being damaged, also he had to be careful not to spill or crack the cell. Almost all modern cells are dry cells because they don't spill or leak and require no user maintenance. The main wet cell still used is the lead-acid battery used in car batteries (and some of these have the acid gelled to keep it from spilling or leaking). Dry cells have generally replaced wet cells because they are more practical.
A dry acid is normally a substance with a pH of under 7
battery's for lighting, remote controls etc.
No, automobiles are still using wet cell batteries.
Wet batteries have acid (or alkaline in Ni-Cad) in them that may boil away and need maintenance, topping up with distilled water. Dry batteries are sealed and can be used at any angle, without spillage.
Concentrated sulfuric acid is commonly used to dry ammonia gas by absorbing any moisture present. The acid traps water molecules, leaving behind dry ammonia gas for various industrial applications.
Another name for dry cells is primary cells.