Weight of Reactant given Active Mass Solution

STEP 0: Pre-Calculation Summary
Formula Used
Weight of Solute = Active mass*Molecular Weight
w = M*MW
This formula uses 3 Variables
Variables Used
Weight of Solute - (Measured in Kilogram) - The Weight of Solute is the quantity or amount of solute present in the solution.
Active mass - (Measured in Mole per Cubic Meter) - Active mass gives the relation between rate of chemical reaction and concentrations of reactants.
Molecular Weight - (Measured in Kilogram) - Molecular Weight is the mass of a given molecule.
STEP 1: Convert Input(s) to Base Unit
Active mass: 0.000175 Mole per Liter --> 0.175 Mole per Cubic Meter (Check conversion here)
Molecular Weight: 120 Gram --> 0.12 Kilogram (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
w = M*MW --> 0.175*0.12
Evaluating ... ...
w = 0.021
STEP 3: Convert Result to Output's Unit
0.021 Kilogram -->21 Gram (Check conversion here)
FINAL ANSWER
21 Gram <-- Weight of Solute
(Calculation completed in 00.004 seconds)

Credits

Created by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
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Verified by Pragati Jaju
College Of Engineering (COEP), Pune
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21 Properties of Equilibrium Constant Calculators

Equilibrium Constant with respect to Partial Pressure
Go Equilibrium Constant for Partial Pressure = ((Equilibrium Partial Pressure C^No. of Moles of C)*(Equilibrium Partial Pressure D^No. of Moles of D) )/((Equilibrium Partial Pressure A^Number of Moles of A) *(Equilibrium Partial Pressure B^No. of Moles of B))
Equilibrium Partial Pressure of Substance A
Go Equilibrium Partial Pressure A = (((Equilibrium Partial Pressure C^No. of Moles of C)*(Equilibrium Partial Pressure D^No. of Moles of D))/(Equilibrium Constant for Partial Pressure*(Equilibrium Partial Pressure B^No. of Moles of B)))^(1/Number of Moles of A)
Equilibrium Partial Pressure of Substance B
Go Equilibrium Partial Pressure B = (((Equilibrium Partial Pressure C^No. of Moles of C)*(Equilibrium Partial Pressure D^No. of Moles of D))/(Equilibrium Constant for Partial Pressure*(Equilibrium Partial Pressure A^Number of Moles of A)))^(1/No. of Moles of B)
Equilibrium Partial Pressure of Substance C
Go Equilibrium Partial Pressure C = ((Equilibrium Constant for Partial Pressure*(Equilibrium Partial Pressure A^Number of Moles of A)*(Equilibrium Partial Pressure B^No. of Moles of B))/(Equilibrium Partial Pressure D^No. of Moles of D))^(1/No. of Moles of C)
Equilibrium Partial Pressure of Substance D
Go Equilibrium Partial Pressure D = ((Equilibrium Constant for Partial Pressure*(Equilibrium Partial Pressure A^Number of Moles of A)*(Equilibrium Partial Pressure B^No. of Moles of B))/(Equilibrium Partial Pressure C^No. of Moles of C))^(1/No. of Moles of D)
Equilibrium Mole Fraction of Substance A
Go Equilibrium Mole Fraction A = (((Equilibrium Mole Fraction C^No. of Moles of C) *(Equilibrium Mole Fraction D^No. of Moles of D) )/(Equilibrium Constant for Mole Fraction*(Equilibrium Mole Fraction B^No. of Moles of B)))^(1/Number of Moles of A)
Equilibrium Mole Fraction of Substance B
Go Equilibrium Mole Fraction B = (((Equilibrium Mole Fraction C^No. of Moles of C) *(Equilibrium Mole Fraction D^No. of Moles of D) )/(Equilibrium Constant for Mole Fraction*(Equilibrium Mole Fraction A^Number of Moles of A)))^(1/No. of Moles of B)
Equilibrium Constant with respect to Mole Fraction
Go Equilibrium Constant for Mole Fraction = ((Equilibrium Mole Fraction C^No. of Moles of C) *(Equilibrium Mole Fraction D^No. of Moles of D))/((Equilibrium Mole Fraction A^Number of Moles of A) *(Equilibrium Mole Fraction B^No. of Moles of B))
Equilibrium Mole Fraction of Substance C
Go Equilibrium Mole Fraction C = ((Equilibrium Constant for Mole Fraction*(Equilibrium Mole Fraction A^Number of Moles of A) *(Equilibrium Mole Fraction B^No. of Moles of B) )/(Equilibrium Mole Fraction D^No. of Moles of D))^(1/No. of Moles of C)
Equilibrium Mole Fraction of Substance D
Go Equilibrium Mole Fraction D = ((Equilibrium Constant for Mole Fraction*(Equilibrium Mole Fraction A^Number of Moles of A) *(Equilibrium Mole Fraction B^No. of Moles of B))/(Equilibrium Mole Fraction C^No. of Moles of C))^(1/No. of Moles of D)
Equilibrium Constant for Reverse Reaction
Go Reverse Equilibrium Constant = ((Equilibrium Concentration of A^Number of Moles of A)*(Equilibrium Concentration of B^No. of Moles of B))/((Equilibrium Concentration of C^No. of Moles of C)*(Equilibrium Concentration of D^No. of Moles of D))
Molar Concentration of Substance A
Go Concentration of A = (((Concentration of C^No. of Moles of C)*(Concentration of D^No. of Moles of D))/(Reaction Quotient*(Concentration of B^No. of Moles of B)))^(1/Number of Moles of A)
Molar Concentration of Substance B
Go Concentration of B = (((Concentration of C^No. of Moles of C)*(Concentration of D^No. of Moles of D))/(Reaction Quotient*(Concentration of A^Number of Moles of A)))^(1/No. of Moles of B)
Molar Concentration of Substance C
Go Concentration of C = ((Reaction Quotient*(Concentration of A^Number of Moles of A)*(Concentration of B^No. of Moles of B))/(Concentration of D^No. of Moles of D))^(1/No. of Moles of C)
Molar Concentration of Substance D
Go Concentration of D = ((Reaction Quotient*(Concentration of A^Number of Moles of A)*(Concentration of B^No. of Moles of B))/(Concentration of C^No. of Moles of C))^(1/No. of Moles of D)
Reaction Quotient
Go Reaction Quotient = ((Concentration of C^No. of Moles of C)*(Concentration of D^No. of Moles of D))/((Concentration of A^Number of Moles of A)*(Concentration of B^No. of Moles of B))
Equilibrium Constant for Reversed Reaction when Multiplied with Integer
Go Equilibrium Constant Multiplied = 1/(Equilibrium Constant^Number)
Equilibrium Constant for Reaction when Multiplied with Integer
Go Equilibrium Constant Multiplied = (Equilibrium Constant^Number)
Weight of Reactant given Active Mass
Go Weight of Solute = Active mass*Molecular Weight
Active Mass
Go Active mass = Weight of Solute/Molecular Weight
Equilibrium Constant for Reverse Reaction given Constant for Forward Reaction
Go Reverse Equilibrium Constant = 1/Equilibrium Constant

Weight of Reactant given Active Mass Formula

Weight of Solute = Active mass*Molecular Weight
w = M*MW

What is law of mass action?

This law states that 'The rate of a chemical reaction at a given temperature is directly proportional to the product of the active mass or molar concentration of the reactants at that instant'.
This law is applicable to all reactions occurring in the gas phase or in the liquid phase.

How to Calculate Weight of Reactant given Active Mass?

Weight of Reactant given Active Mass calculator uses Weight of Solute = Active mass*Molecular Weight to calculate the Weight of Solute, The Weight of reactant given active mass formula is defined as the mass of one mole of a substance/solute in grams. Weight of Solute is denoted by w symbol.

How to calculate Weight of Reactant given Active Mass using this online calculator? To use this online calculator for Weight of Reactant given Active Mass, enter Active mass (M) & Molecular Weight (MW) and hit the calculate button. Here is how the Weight of Reactant given Active Mass calculation can be explained with given input values -> 1.9E+9 = 0.175*0.12.

FAQ

What is Weight of Reactant given Active Mass?
The Weight of reactant given active mass formula is defined as the mass of one mole of a substance/solute in grams and is represented as w = M*MW or Weight of Solute = Active mass*Molecular Weight. Active mass gives the relation between rate of chemical reaction and concentrations of reactants & Molecular Weight is the mass of a given molecule.
How to calculate Weight of Reactant given Active Mass?
The Weight of reactant given active mass formula is defined as the mass of one mole of a substance/solute in grams is calculated using Weight of Solute = Active mass*Molecular Weight. To calculate Weight of Reactant given Active Mass, you need Active mass (M) & Molecular Weight (MW). With our tool, you need to enter the respective value for Active mass & Molecular Weight and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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