Consider the reversible, elementary, gas phase reaction of A and B to form C occurring at 300 K in a variable volume (constant p
ressure) reactor with an initial volume of 1.0 L. For a reactant charge to the reactor of 1.0 mol of A, 2.0 mol of B, and no C, find the equilibrium conversion of A. Plot the composition in the reactor and the reactor volume as a function of time.
1 answer:
Complete Question
The complete question is shown on the first uploaded image
Answer:
The equilibrium conversion is 1.562 where lt denotes liter
The final pressure is 3895.94 Kpa
The plot of the composition of the reactor volume as a function of time is on the second uploaded image
Explanation:
The explanation is shown on the third , fourth and fifth images
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Answer:
work will be positive when it is under polytropic expansion process
Explanation:
It states a polytropic process with n equal to 1.67. there is a polytropic expansion that mean work is positive and if it was polytropic compression then it would be negative
Also work during the process of polytropic is given as
the work will be positive when it is under the polytropic expansion process
is the volume of the sample when the water content is 10%.
<u>Explanation:</u>
Given Data:
First has a natural water content of 25% = = 0.25
Shrinkage limit,
We need to determine the volume of the sample when the water content is 10% (0.10). As we know,
------> eq 1
The above equation is at ,
Applying the given values, we get
Shrinkage limit is lowest water content
Applying the given values, we get
Applying the found values in eq 1, we get
