Sulfuric acid is used because it combines with water to produce electrolytes. Inside a car battery, these electrolytes cover the battery plates,and henceforth is utilized to power the engine turnover on startup.
One way to convert dilute sulphuric acid to concentrated sulphuric acid is through a process called evaporation. In this method, the dilute acid is heated to evaporate the water content, leaving behind the concentrated acid. Another method involves adding concentrated sulphuric acid to the dilute solution until the desired concentration is achieved.
To prepare a 50 mM Sulphuric acid solution, you would need to calculate the required volume of concentrated Sulphuric acid (typically 96-98%) needed to dilute in water to achieve the desired concentration. You can use the formula: C1V1 = C2V2, where C1 is the concentration of the concentrated acid, V1 is the volume of concentrated acid needed, C2 is the desired concentration (50 mM), and V2 is the final volume of the solution you want to prepare.
Concentrated sulfuric acid is considered stronger than dilute sulfuric acid in terms of its ability to oxidize and dehydrate substances due to its higher concentration of sulfuric acid molecules. However, when referring to acidity, dilute sulfuric acid has a higher concentration of H+ ions, making it stronger in terms of pH.
The ratio of water to concentrated sulfuric acid in dilute sulfuric acid is typically 10:1, meaning there is about 10 times more water than concentrated sulfuric acid in the solution. This dilution is necessary to reduce the concentration of sulfuric acid for safety and handling purposes.
We cannot tell the pH value of sulphuric acid without knowing the concentration of the sulphuric acid. As sulphuric acid is acid; so, its pH will be in the range of 1 to 6.9, depending upon its concentration.
There are many different concentrations of "concentrated sulphuric acid". It is possible to deduce the concentration of the sulphuric acid by titration.
One way to convert dilute sulphuric acid to concentrated sulphuric acid is through a process called evaporation. In this method, the dilute acid is heated to evaporate the water content, leaving behind the concentrated acid. Another method involves adding concentrated sulphuric acid to the dilute solution until the desired concentration is achieved.
To prepare a 50 mM Sulphuric acid solution, you would need to calculate the required volume of concentrated Sulphuric acid (typically 96-98%) needed to dilute in water to achieve the desired concentration. You can use the formula: C1V1 = C2V2, where C1 is the concentration of the concentrated acid, V1 is the volume of concentrated acid needed, C2 is the desired concentration (50 mM), and V2 is the final volume of the solution you want to prepare.
Concentrated sulfuric acid is considered stronger than dilute sulfuric acid in terms of its ability to oxidize and dehydrate substances due to its higher concentration of sulfuric acid molecules. However, when referring to acidity, dilute sulfuric acid has a higher concentration of H+ ions, making it stronger in terms of pH.
concentrated nitric acid concentrated sulphuric acid
no
yes
The ratio of water to concentrated sulfuric acid in dilute sulfuric acid is typically 10:1, meaning there is about 10 times more water than concentrated sulfuric acid in the solution. This dilution is necessary to reduce the concentration of sulfuric acid for safety and handling purposes.
We cannot tell the pH value of sulphuric acid without knowing the concentration of the sulphuric acid. As sulphuric acid is acid; so, its pH will be in the range of 1 to 6.9, depending upon its concentration.
Sulphuric acid
When potassium nitrate crystals are heated with concentrated sulphuric acid, nitric oxide gas (NO) is evolved. This is a result of the oxidation of nitrate ions in potassium nitrate by the sulphuric acid.
Yes- very