0
What else can I help you with?
how do calculated normality of iodine?
To calculate the normality of iodine, first determine its equivalent weight based on the reaction it participates in, typically involving redox reactions where iodine can act as an oxidizing agent. Normality is then calculated using the formula: Normality (N) = (grams of solute / equivalent weight) / volume of solution in liters. For iodine, if you know the concentration in grams per liter and the equivalent weight, you can directly compute its normality.
How do you check normality of 0.1N AgNO3?
To check the normality of a 0.1N AgNO3 solution, you can perform a titration using a standard solution of a known concentration, such as NaCl, to determine the endpoint. By reacting the AgNO3 with the NaCl, you can calculate the amount of AgNO3 that reacted and confirm its normality based on stoichiometry. Alternatively, you can also use a pH meter or conduct a conductivity test to assess the solution's properties, but titration is the most common method for determining normality in this case.
Why do scientists use specific gravity?
I believe the reason behind using specific gravity is that it is easier to measure (especially when you're measuring it for a solid).
What is the normality of an acid solution if 50 ml of the solution requires 48.6 ml of 0.1879 N alkali for neutralization?
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.
How to Find Volume when given mass and specific gravity of a mineral mass 2851.2g specific gravity 4.2 what is volume?
To find the volume of the mineral, you would first calculate the volume of the mineral using the formula: Volume = Mass / Specific Gravity. In this case, Volume = 2851.2g / 4.2 = 679 cubic centimeters.
How do you calculate weight using specific gravity?
To calculate weight using specific gravity, you multiply the specific gravity of the substance by the weight of the substance in air. This gives you the weight of the substance in a vacuum.
How do you calculate specific gravity of a petroleum product?
How to calculate the specific gravity of a petroleum product involves using the ratio of the specific product density to that of water. This type of calculation is always determined at 60-degrees Fahrenheit.
how do calculated normality of iodine?
To calculate the normality of iodine, first determine its equivalent weight based on the reaction it participates in, typically involving redox reactions where iodine can act as an oxidizing agent. Normality is then calculated using the formula: Normality (N) = (grams of solute / equivalent weight) / volume of solution in liters. For iodine, if you know the concentration in grams per liter and the equivalent weight, you can directly compute its normality.
How do you find the specific gravity of frosting?
To find the specific gravity of frosting, first measure the mass of a known volume of the frosting using a scale. Next, calculate the volume of the frosting by using a graduated cylinder or another measuring device. Specific gravity is then determined by dividing the mass of the frosting by the mass of an equal volume of water at a specific temperature (usually 4°C, where water is densest). The formula can be expressed as: Specific Gravity = (Mass of frosting) / (Mass of equal volume of water).
How do you calculate the the specific gravity for minerals?
Specific gravity of a mineral is calculated by dividing the weight of the mineral by the weight of an equal volume of water. This is typically done using a balance to measure the weight of the mineral and a graduated cylinder to measure water displacement. The specific gravity value provides information about the density and composition of the mineral in comparison to water.
How do you determine the specific gravity of a liquid using hare's apparatus?
As we suck air through common pipe line we could lift the liquid under examination in one limb and water in the other limb. Now measuring the height of columns specific gravity of liquid = h water / h liq.
How would you know the Normality of HCL?
To determine the normality of HCl (hydrochloric acid), you can perform a titration experiment with a standardized solution of sodium hydroxide (NaOH) of known concentration. By recording the volume of NaOH required to neutralize the HCl, you can calculate the normality of the acid using the formula: Normality = (Molarity of NaOH) x (Volume of NaOH used) / Volume of HCl sample.
How do you check normality of 0.1N AgNO3?
To check the normality of a 0.1N AgNO3 solution, you can perform a titration using a standard solution of a known concentration, such as NaCl, to determine the endpoint. By reacting the AgNO3 with the NaCl, you can calculate the amount of AgNO3 that reacted and confirm its normality based on stoichiometry. Alternatively, you can also use a pH meter or conduct a conductivity test to assess the solution's properties, but titration is the most common method for determining normality in this case.
What is specific gravity of Pozzolana cement?
The specific gravity of pozzolana cement is 3.15The specific gravity test can be done by using the bottle method.For finding the specific gravity of cement by bottle method, instead of water kerosene is used.
Who to calculated normality of iodine?
Normality of iodine ((I_2)) can be calculated using the formula: Normality = Molarity x n, where n is the oxidation state of iodine in the reaction. For example, if you are using a 0.1 M (I_2) solution in a redox reaction where iodine is being reduced to iodide ions ((I^-)), then the normality of iodine would be 0.1 N.
What is the specific gravity of cement?
Specific gravity of cement is 3.15.The specific gravity of cement is 3.15The specific gravity can be found out by using the bottle method.For finding specific gravity of cement kerosene is used.
What is the molarity of 35 per cent Hydrochloric acid solution with specific gravity of 1.8 gram per liter?
To find the molarity, we first need to calculate the weight percent of hydrochloric acid in the solution: 35% of the solution is HCl. Then we calculate the molarity using the specific gravity, which is the ratio of the density of the solution to the density of water. Finally, we use the molarity formula to find the molarity: Molarity = (Weight % HCl / molar mass of HCl) / (Specific gravity of the solution).
