To make a 5 volume developer, you would mix equal parts of 10 volume developer (3% hydrogen peroxide) and distilled water. This will dilute the concentration of hydrogen peroxide to achieve a 5 volume strength (1.5% hydrogen peroxide).
Yes, you can dilute 30 volume peroxide to 20 volume by mixing 2 parts of the 30 volume solution with 1 part of distilled water. This will reduce the concentration of the peroxide while maintaining the desired volume strength. Be sure to mix well before use.
To dilute 10 volume peroxide to 5 volume peroxide, you can mix equal parts of 10 volume peroxide with water or a neutralizing solution. For example, mixing 1 part of 10 volume peroxide with 1 part water will create a solution around 5 volume peroxide.
To dilute 6 volume peroxide to 3 volume peroxide, you would mix equal parts of the 6 volume peroxide and water. For example, mix 1 part of 6 volume peroxide with 1 part water to create a 3 volume peroxide solution. This will effectively halve the concentration while maintaining the total volume.
Yes, you can dilute 40 volume peroxide by mixing equal parts of 40 volume peroxide and water to achieve a 20 volume solution. For example, mix 1 part 40 volume peroxide with 1 part water to create a 20 volume peroxide solution.
To make a 5 volume developer, you would mix equal parts of 10 volume developer (3% hydrogen peroxide) and distilled water. This will dilute the concentration of hydrogen peroxide to achieve a 5 volume strength (1.5% hydrogen peroxide).
Normality= mass / (equivalent wt *volume)
Yes, you can dilute 30 volume peroxide to 20 volume by mixing 2 parts of the 30 volume solution with 1 part of distilled water. This will reduce the concentration of the peroxide while maintaining the desired volume strength. Be sure to mix well before use.
To dilute 10 volume peroxide to 5 volume peroxide, you can mix equal parts of 10 volume peroxide with water or a neutralizing solution. For example, mixing 1 part of 10 volume peroxide with 1 part water will create a solution around 5 volume peroxide.
Normality (N) of a liquid solution is calculated by dividing the number of equivalents of solute by the volume of solvent in liters. The formula for normality is N = (equivalents of solute) / (volume of solvent in liters).
To dilute 6 volume peroxide to 3 volume peroxide, you would mix equal parts of the 6 volume peroxide and water. For example, mix 1 part of 6 volume peroxide with 1 part water to create a 3 volume peroxide solution. This will effectively halve the concentration while maintaining the total volume.
The strength of a solution may be described as a percentage or volume, where 1% hydrogen peroxide releases 3.3 volumes of oxygen during decomposition.Thus, a 3% solution is equivalent to 10 volume and a 6% solution to 20 volume, etc. Answer taken from Wikipedia 19/01/2009
Yes, you can dilute 40 volume peroxide by mixing equal parts of 40 volume peroxide and water to achieve a 20 volume solution. For example, mix 1 part 40 volume peroxide with 1 part water to create a 20 volume peroxide solution.
To mix 10 volume peroxide and 40 volume peroxide to create a 20 volume solution, you would need to calculate the ratio of each solution needed based on their strength. Since volume strength is directly proportional to the concentration of hydrogen peroxide, you can use the formula C1V1 = C2V2, where C1 is the concentration of the first solution (10 volume), V1 is the volume of the first solution, C2 is the concentration of the second solution (40 volume), and V2 is the volume of the second solution. By solving for V1 and V2, you can determine the amounts of each solution needed to create a 20 volume solution.
Yes, you can make 10 volume peroxide by diluting 30 volume peroxide with water. To calculate the amount needed, you can use the formula: C1V1 = C2V2, where C1 is the initial concentration (30 volume), V1 is the volume you want to find, C2 is the final concentration (10 volume), and V2 is the final volume (the sum of V1 and the water volume added).
The normality of the acid solution can be calculated using the formula: Normality of acid x Volume of acid = Normality of alkali x Volume of alkali. Plugging in the values, we get: Normality of acid x 50 ml = 0.1879 N x 48.6 ml. Solving for the normality of the acid gives approximately 0.186 N.
A 20-30 volume hydrogen peroxide solution is typically used to change hair tone. It is important to consult with a professional stylist before using hydrogen peroxide on your hair to avoid damage.