Concentrated HCl is hydrochloric acid with a concentration that is close to the maximum amount of this acid that can be dissolved in water. In general, it is considered to be approximately 12M, which is 12 moles of acid per L of solution, however 38-40% acid solution of concentrated HCl do exceed 12M (up to 12.6M).
I am not sure of what happens if you try to make a solution of HCl that is more concentrated. In any case, you should always read the label on the bottle and consider the age of the mixture as pure HCl is a gas and will evapourate, which will lower the concentration.
To prepare 0.2 mol/L HCl from concentrated HCl (e.g., 37% HCl), you would need to dilute the concentrated HCl with water in the appropriate ratio. Since the concentrated HCl usually has a density of around 1.19 g/mL, you can use the formula M1V1 = M2V2 to calculate the volume of concentrated HCl needed. After calculating the volume of concentrated HCl required, add water to make up the final volume of 1 liter to achieve a 0.2 mol/L HCl solution.
To make 4N HCl from concentrated HCl, you can dilute the concentrated HCl with water in a ratio that will give you a final concentration of 4N. For example, to make 1L of 4N HCl, you would mix 273 ml of concentrated HCl (37% w/w) with 727 ml of water. Always remember to add acid to water, not the other way around, and wear appropriate safety gear when working with concentrated acids.
The formula for concentrated hydrochloric acid is HCl.
To prepare 0.02N HCl solution, you would need to dilute a more concentrated HCl solution with water. Calculate the volume of concentrated HCl needed using the formula C1V1 = C2V2, where C1 is the concentration of the concentrated HCl, V1 is the volume needed, and C2 is the desired concentration (0.02N). Dilute the calculated volume of concentrated HCl with water to reach the desired final volume.
To prepare 2 mol dm-3 HCl solution for titration, you will need to dilute a concentrated HCl solution of known concentration. Calculate the amount of concentrated HCl needed using the formula: C1V1 = C2V2, where C1 = concentration of concentrated HCl, V1 = volume of concentrated HCl needed, C2 = desired concentration (2 mol dm-3), and V2 = final volume of HCl solution. Mix the calculated amount of concentrated HCl with water to reach the final volume. Remember to wear appropriate personal protective equipment and handle concentrated acids with caution.
To prepare 0.2 mol/L HCl from concentrated HCl (e.g., 37% HCl), you would need to dilute the concentrated HCl with water in the appropriate ratio. Since the concentrated HCl usually has a density of around 1.19 g/mL, you can use the formula M1V1 = M2V2 to calculate the volume of concentrated HCl needed. After calculating the volume of concentrated HCl required, add water to make up the final volume of 1 liter to achieve a 0.2 mol/L HCl solution.
To make 4N HCl from concentrated HCl, you can dilute the concentrated HCl with water in a ratio that will give you a final concentration of 4N. For example, to make 1L of 4N HCl, you would mix 273 ml of concentrated HCl (37% w/w) with 727 ml of water. Always remember to add acid to water, not the other way around, and wear appropriate safety gear when working with concentrated acids.
Concentrated HCl is typically 36.5% industrially. It is thus almost exactly 10 Molar.
The formula for concentrated hydrochloric acid is HCl.
To prepare 0.02N HCl solution, you would need to dilute a more concentrated HCl solution with water. Calculate the volume of concentrated HCl needed using the formula C1V1 = C2V2, where C1 is the concentration of the concentrated HCl, V1 is the volume needed, and C2 is the desired concentration (0.02N). Dilute the calculated volume of concentrated HCl with water to reach the desired final volume.
To prepare 2 mol dm-3 HCl solution for titration, you will need to dilute a concentrated HCl solution of known concentration. Calculate the amount of concentrated HCl needed using the formula: C1V1 = C2V2, where C1 = concentration of concentrated HCl, V1 = volume of concentrated HCl needed, C2 = desired concentration (2 mol dm-3), and V2 = final volume of HCl solution. Mix the calculated amount of concentrated HCl with water to reach the final volume. Remember to wear appropriate personal protective equipment and handle concentrated acids with caution.
To make a 5mM solution of HCl, you would need to dilute concentrated HCl (usually in the range of 10-12M) with water. The exact dilution volume will depend on the concentration of the concentrated HCl solution you have. It's crucial to wear appropriate personal protective equipment and handle concentrated HCl with care due to its corrosive nature.
Coned HCl is likely a typo for concentrated hydrochloric acid (HCl). Concentrated HCl is a strong acid commonly used in laboratories and industry for various chemical reactions and applications. It is corrosive and should be handled with care due to its ability to cause burns on contact with skin or tissue.
1 m HCl is not more reactive than 4m HCl, but 4m HCl is more concentrated.
To prepare 1 M hydrochloric acid (HCl) solution, you usually need to dilute concentrated HCl solution (~35-37% HCl) with water in a specific ratio. The specific volume of concentrated HCl needed depends on its concentration and the final volume of the 1 M solution you want to make. In this case, 85 ml of concentrated HCl is likely to be the volume needed to make 1 L of 1 M HCl solution.
To prepare 0.5M HCl from 37% HCl, you would dilute the concentrated HCl with water. Since the concentration of the concentrated HCl is 37%, you can use the formula: (C1V1) = (C2V2) where C1 = concentration of concentrated HCl, V1 = volume of concentrated HCl, C2 = desired concentration of HCl (0.5M), and V2 = final volume (in liters). Solve for V1 to find the volume of concentrated HCl needed. Then, dilute it to the desired volume with water.
To prepare 6N HCl from concentrated HCl (37%), you would need to dilute the concentrated HCl with water. The formula to calculate the volume of concentrated acid needed is: V1 * C1 = V2 * C2, where V1 is the volume of concentrated acid, C1 is the concentration of concentrated acid, V2 is the final volume of diluted acid, and C2 is the final concentration desired (6N in this case).