The specific rotation of a compound is calculated using the formula:
Specific Rotation Observed Rotation / (Concentration x Path Length)
Where:
By plugging in these values into the formula, you can calculate the specific rotation of a compound.
To calculate the specific rotation of a compound, you need to measure the observed rotation of a solution of the compound in a polarimeter, and then use the formula: specific rotation observed rotation / (concentration x path length). The observed rotation is the angle of rotation measured in degrees, the concentration is the concentration of the compound in the solution in g/mL, and the path length is the length of the polarimeter tube in decimeters.
by this law specific rotation =degree of rotation /concentration of a substance *length of sample tube
Specific heat is the measure of energy it takes to raise a unit mass in temperature by one degree Celsius. When measuring a compound that is water soluble, heat it separately to a specific range, then use the liquid to calculate the amount of heat that was used.
To calculate the percent by mass of an element in a compound, you divide the mass of the element by the total mass of the compound and then multiply by 100. This gives you the percentage of the compound's mass that is made up of that specific element.
To calculate the grams of an element in a compound, you need to find the molar mass of the element and the compound. Then, use the formula: (mass of element/molar mass of compound) x molar mass of element. This will give you the grams of the element in the compound.
To calculate the specific rotation of a compound, you need to measure the observed rotation of a solution of the compound in a polarimeter, and then use the formula: specific rotation observed rotation / (concentration x path length). The observed rotation is the angle of rotation measured in degrees, the concentration is the concentration of the compound in the solution in g/mL, and the path length is the length of the polarimeter tube in decimeters.
by this law specific rotation =degree of rotation /concentration of a substance *length of sample tube
Optical rotation is the turning plane of linearly polarized light as it travels through certain materials. Specific rotation is the property of a chemical compound as the change in orientation of a plane of light.
Specific heat is the measure of energy it takes to raise a unit mass in temperature by one degree Celsius. When measuring a compound that is water soluble, heat it separately to a specific range, then use the liquid to calculate the amount of heat that was used.
The at formula is used to calculate the percentage composition of a specific element in a compound. It is calculated by dividing the atomic mass of the element by the molar mass of the compound, and then multiplying by 100 to get the percentage.
Multiply the mass of the compound by the conversion factor based on the percent composition of the element in the compound
To calculate the percent by mass of an element in a compound, you divide the mass of the element by the total mass of the compound and then multiply by 100. This gives you the percentage of the compound's mass that is made up of that specific element.
To calculate the grams of an element in a compound, you need to find the molar mass of the element and the compound. Then, use the formula: (mass of element/molar mass of compound) x molar mass of element. This will give you the grams of the element in the compound.
The specific rotation is +123 and -123 degrees for the (+) and (-) enantiomers respectively
To calculate the oxidation state of carbon in a compound, you assign a charge based on the number of electrons it gains or loses in a chemical reaction. This can be determined by considering the electronegativity of the other elements in the compound and following specific rules for assigning oxidation states.
Aceclofenac specific optical rotation value
Optical rotation is defined as the rotation of the plane of polarization of plane-polarized light by an optically active substance. As light travels through certain materials, it is the direction of motion.