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∙ 11y agopH = pKNH4+ + log([NH3]/[NH4+]) = 9.23 + log([0.162]/[0.110]) = 9.23 + log[1.47] = 9.23 + 0.168 = 9.40
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∙ 11y agoTo calculate the hydroxide ion concentration in the solution, first calculate the ammonia concentration based on the NH3 concentration (NH3 is a weak base that accepts a proton to form NH4 + OH-). Then, use the Kb value for NH3 to find the OH- concentration from NH3's hydrolysis reaction. Finally, don't forget to consider the contribution of OH- from the dissociation of NH4OH for the total OH- concentration.
The molarity of a 5% solution of NH3 in water depends on the density and molecular weight of NH3. Without this information, it is not possible to calculate the molarity.
Ammonium (cation): NH4+ Hydroxyl (anion): OH- It is incorrect to write NH4OH solution, because the solution is of ammonia (NH3) in water.
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Adding 4.5 moles of NH3 to 250 mL of water will result in a solution with a volume slightly greater than 250 mL. To calculate the molarity, you need to know the final volume of the solution. Once you have the final volume, you can use the formula: Molarity = moles of solute / liters of solution.
The common name for NH3 is ammonia. Ammonia is often used as a household cleaning agent in a solution of ammonium hydroxide.
The molarity of a 5% solution of NH3 in water depends on the density and molecular weight of NH3. Without this information, it is not possible to calculate the molarity.
To prepare a 1.00 M solution from a 14.5 M NH3 solution, you'll need to dilute it. By using the formula: M1V1 = M2V2, you can calculate the volume of 14.5 M NH3 needed. Plugging in the values, you get 138 mL of 14.5 M NH3 needed.
The balanced equation for the reaction between copper sulfate solution (CuSO4) and ammonia solution (NH3) is: CuSO4 + 4NH3 -> [Cu(NH3)4]SO4
To find the molarity, first calculate the moles of NH3 in 100g of the solution using the mass percent. Then convert the volume of the solution (1 mL) to liters. Finally, divide moles by liters to obtain the molarity.
Ammonia (NH3) hasn't an isomer.The solution of ammonia in water is called ammonium hydroxide.
Yes, ammonia (NH3) is alkaline because it reacts with water to form ammonium hydroxide (NH4OH), which is a weak base. This solution can then release hydroxide ions (OH-) which can accept protons (H+) from acids, making the solution basic.
The molar mass of NH3 is 17 g/mol. First, convert 68g to moles by dividing by the molar mass. Then, divide the moles of NH3 by the volume of the solution in liters to find the molarity.
To find the molarity of ammonia solution, first calculate the concentration of OH- ions in the solution using the pH value. From there, use the Kb value to find the concentration of NH3. Finally, convert the concentration of NH3 to molarity to get the answer.
To find the molarity, first calculate the number of moles of NH3 in 17g using its molar mass. Molar mass of NH3 = 17.031 g/mol. Therefore, moles of NH3 = 17g / 17.031 g/mol = 0.997 moles. Then, divide the moles of NH3 by the volume of the solution in liters to get the molarity: Molarity = 0.997 moles / 0.50 L = 1.99 M.
Ammonium nitrite is NH4NO2 Ammonium nitrate is NH4NO3
Ammonium (cation): NH4+ Hydroxyl (anion): OH- It is incorrect to write NH4OH solution, because the solution is of ammonia (NH3) in water.
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