A : At high pressure , the compressibili...

A : At high pressure , the compressibility factor Z is `(1 + (pb)/(RT))` .
R : At high pressure van der Wall's equation is modified as p(V - b) = RT` .

Both Assertion and Reason are true and Reason is the correct explanation of the Assertion.

Both Assertion and Reason are true but Reason is not the correct explanation of Assertion .

Assertion is true but Reason is false.

Both Assertion and Reason are false.

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AI Generated Solution

To solve the given question, we need to analyze both the assertion (A) and the reason (R) provided. ### Step-by-Step Solution: **Step 1: Understand the Assertion (A)** The assertion states that at high pressure, the compressibility factor \( Z \) is given by the equation: \[ Z = 1 + \frac{pV}{RT} \] This implies that the compressibility factor deviates from ideal behavior at high pressures. ...

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A : At high pressure , the compressibility factor Z is `(1 + (pb)/(RT))` .
R : At high pressure van der Wall's equation is modified as p(V - b) = RT` .

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A : At high pressure , the compressibility factor Z is `(1 + (pb)/(RT))` . R : At high pressure van der Wall's equation is modified as p(V - b) = RT` .

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A : At high pressure , the compressibility factor Z is `(1 + (pb)/(RT))` .
R : At high pressure van der Wall's equation is modified as p(V - b) = RT` .