Initial Concentration of Reactant A given Initial Concentration of B greater than 0 Solution

STEP 0: Pre-Calculation Summary
Formula Used
Initial Concentration of Reactant A = (Initial Concentration of Reactant B+Concentration of Reactant at Equilibrium)*((1/Forward Reaction Rate Constant)*(1/Time)*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))-Initial Concentration of Reactant B
A0 = (B0+xeq)*((1/kf)*(1/t)*ln(xeq/(xeq-x)))-B0
This formula uses 1 Functions, 6 Variables
Functions Used
ln - The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function., ln(Number)
Variables Used
Initial Concentration of Reactant A - (Measured in Mole per Cubic Meter) - Initial Concentration of Reactant A is defined as the concentration of the reactant A at time t=0.
Initial Concentration of Reactant B - (Measured in Mole per Cubic Meter) - Initial Concentration of Reactant B is defined as the initial concentration of the reactant B at time t=0.
Concentration of Reactant at Equilibrium - (Measured in Mole per Cubic Meter) - Concentration of Reactant at Equilibrium is defined as the amount of reactant present when the reaction is at equilibrium condition.
Forward Reaction Rate Constant - (Measured in 1 Per Second) - Forward Reaction Rate Constant is used to define the relationship between the molar concentration of the reactants and the rate of the chemical reaction in forward direction.
Time - (Measured in Second) - Time is used to defined as the period of time that is required for the reactant to given a certain amount of product in a chemical reaction.
Concentration of Product at Time t - (Measured in Mole per Cubic Meter) - Concentration of Product at Time t is defined as the amount of reactant that has been converted into product in a time interval of t.
STEP 1: Convert Input(s) to Base Unit
Initial Concentration of Reactant B: 80 Mole per Liter --> 80000 Mole per Cubic Meter (Check conversion ​here)
Concentration of Reactant at Equilibrium: 70 Mole per Liter --> 70000 Mole per Cubic Meter (Check conversion ​here)
Forward Reaction Rate Constant: 9.74E-05 1 Per Second --> 9.74E-05 1 Per Second No Conversion Required
Time: 3600 Second --> 3600 Second No Conversion Required
Concentration of Product at Time t: 27.5 Mole per Liter --> 27500 Mole per Cubic Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
A0 = (B0+xeq)*((1/kf)*(1/t)*ln(xeq/(xeq-x)))-B0 --> (80000+70000)*((1/9.74E-05)*(1/3600)*ln(70000/(70000-27500)))-80000
Evaluating ... ...
A0 = 133463.024520443
STEP 3: Convert Result to Output's Unit
133463.024520443 Mole per Cubic Meter -->133.463024520443 Mole per Liter (Check conversion ​here)
FINAL ANSWER
133.463024520443 133.463 Mole per Liter <-- Initial Concentration of Reactant A
(Calculation completed in 00.020 seconds)

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First Order Opposed by First Order Reactions Calculators

Backward Reaction Rate Constant of First Order Opposed by First Order Reaction
​ LaTeX ​ Go Backward Reaction Rate Constant = (ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))/Time taken for Backward Reaction)-Forward Reaction Rate Constant
Forward Reaction Rate Constant of First Order Opposed by First Order Reaction
​ LaTeX ​ Go Forward Reaction Rate Constant = (ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))/Time)-Backward Reaction Rate Constant
Time taken for 1st Order Opposed by 1st Order Reaction
​ LaTeX ​ Go Time = ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))/(Forward Reaction Rate Constant+Backward Reaction Rate Constant)
Product Concentration of 1st Order Opposed by 1st Order Reaction at given Time t
​ LaTeX ​ Go Concentration of Product at Time t = Concentration of Reactant at Equilibrium*(1-exp(-(Forward Reaction Rate Constant+Backward Reaction Rate Constant)*Time))

Initial Concentration of Reactant A given Initial Concentration of B greater than 0 Formula

​LaTeX ​Go
Initial Concentration of Reactant A = (Initial Concentration of Reactant B+Concentration of Reactant at Equilibrium)*((1/Forward Reaction Rate Constant)*(1/Time)*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))-Initial Concentration of Reactant B
A0 = (B0+xeq)*((1/kf)*(1/t)*ln(xeq/(xeq-x)))-B0

What is an Opposing Reaction?

Opposing reactions or reversible reactions are those in which both forward and backward reaction takes place simultaneously. To start with, the rate of forward reaction is very large and it decreases as reactant concentration decreases with time. Similarly, initially the rate of backward reaction is slow and it increases as product concentration increases with time.
The state at which the rate of forward reaction equals the rate of backward reaction is called the equilibrium state. Thus, equilibrium is a dynamic equilibrium where all the participants of a reaction are being formed as fast as they are being destroyed and hence no further change in the various concentrations is observed.

What are the classifications of Opposing Reactions?

A reversible reaction may be classified on the basis of orders of elementary forward and backward reactions. We describe below a few reversible reactions classified accordingly:
1. First Order Opposed by First Order Reaction
2. First Order Opposed by Second Order Reaction
3. Second Order Opposed by First Order Reaction
4. Second Order Opposed by Second Order Reaction.

How to Calculate Initial Concentration of Reactant A given Initial Concentration of B greater than 0?

Initial Concentration of Reactant A given Initial Concentration of B greater than 0 calculator uses Initial Concentration of Reactant A = (Initial Concentration of Reactant B+Concentration of Reactant at Equilibrium)*((1/Forward Reaction Rate Constant)*(1/Time)*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))-Initial Concentration of Reactant B to calculate the Initial Concentration of Reactant A, The Initial Concentration of Reactant A given Initial Concentration of B greater than 0 formula is defined as the amount of reactant A present in the reaction system when time t=0. Initial Concentration of Reactant A is denoted by A0 symbol.

How to calculate Initial Concentration of Reactant A given Initial Concentration of B greater than 0 using this online calculator? To use this online calculator for Initial Concentration of Reactant A given Initial Concentration of B greater than 0, enter Initial Concentration of Reactant B (B0), Concentration of Reactant at Equilibrium (xeq), Forward Reaction Rate Constant (kf), Time (t) & Concentration of Product at Time t (x) and hit the calculate button. Here is how the Initial Concentration of Reactant A given Initial Concentration of B greater than 0 calculation can be explained with given input values -> 0.063939 = (80000+70000)*((1/9.74E-05)*(1/3600)*ln(70000/(70000-27500)))-80000.

FAQ

What is Initial Concentration of Reactant A given Initial Concentration of B greater than 0?
The Initial Concentration of Reactant A given Initial Concentration of B greater than 0 formula is defined as the amount of reactant A present in the reaction system when time t=0 and is represented as A0 = (B0+xeq)*((1/kf)*(1/t)*ln(xeq/(xeq-x)))-B0 or Initial Concentration of Reactant A = (Initial Concentration of Reactant B+Concentration of Reactant at Equilibrium)*((1/Forward Reaction Rate Constant)*(1/Time)*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))-Initial Concentration of Reactant B. Initial Concentration of Reactant B is defined as the initial concentration of the reactant B at time t=0, Concentration of Reactant at Equilibrium is defined as the amount of reactant present when the reaction is at equilibrium condition, Forward Reaction Rate Constant is used to define the relationship between the molar concentration of the reactants and the rate of the chemical reaction in forward direction, Time is used to defined as the period of time that is required for the reactant to given a certain amount of product in a chemical reaction & Concentration of Product at Time t is defined as the amount of reactant that has been converted into product in a time interval of t.
How to calculate Initial Concentration of Reactant A given Initial Concentration of B greater than 0?
The Initial Concentration of Reactant A given Initial Concentration of B greater than 0 formula is defined as the amount of reactant A present in the reaction system when time t=0 is calculated using Initial Concentration of Reactant A = (Initial Concentration of Reactant B+Concentration of Reactant at Equilibrium)*((1/Forward Reaction Rate Constant)*(1/Time)*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))-Initial Concentration of Reactant B. To calculate Initial Concentration of Reactant A given Initial Concentration of B greater than 0, you need Initial Concentration of Reactant B (B0), Concentration of Reactant at Equilibrium (xeq), Forward Reaction Rate Constant (kf), Time (t) & Concentration of Product at Time t (x). With our tool, you need to enter the respective value for Initial Concentration of Reactant B, Concentration of Reactant at Equilibrium, Forward Reaction Rate Constant, Time & Concentration of Product at Time t and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Initial Concentration of Reactant A?
In this formula, Initial Concentration of Reactant A uses Initial Concentration of Reactant B, Concentration of Reactant at Equilibrium, Forward Reaction Rate Constant, Time & Concentration of Product at Time t. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Initial Concentration of Reactant A = (1/(Time*Forward Reaction Rate Constant))*Concentration of Reactant at Equilibrium*ln(Concentration of Reactant at Equilibrium/(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))
  • Initial Concentration of Reactant A = Concentration of B*((Forward Reaction Rate Constant+Backward Reaction Rate Constant)/Forward Reaction Rate Constant)*(1/(1-exp(-(Forward Reaction Rate Constant+Backward Reaction Rate Constant)*Time)))
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